  <template>
  <div class="sum" style="width: 100%; height: 100%;font-size: 16px;position:relative;">
    <button class="a" :class="{select_active:this.AisSelectActive }" @click="select" style="margin-left: 0.95%">基本参数</button>
    <button class="b" :class="{select_active:this.BisSelectActive }" @click="select">设计模块</button>
    <div class="da">
      <div class="da-left">
        <div class="title" style="height: 4%;">载荷及相关数据输入</div>
        <ul style="width: 95%;height: 100%">
          <li>
            <span>行星架输入转速(rpm)</span>
            <input type="text" v-model="input.n_input">
          </li>
          <li>
            <span>行星架静强度输入扭矩(Nmm)</span>
            <input type="text" v-model="input.torque_static_input">
          </li>
          <li>
            <span>运行工况</span>
            <select v-model="input.whether_single_rotation">
              <option value="1">单向运转</option>
              <option value="2">双向运转</option>
            </select>
          </li>
          <li>
            <span>允许点蚀</span>
            <select v-model="input.switch_pitting">
              <option value="1">否</option>
              <option value="2">是</option>
            </select>
          </li>
          <li>
            <span>转折点循环次数设计</span>
            <select v-model="input.consider_Nc">
              <option value="1">否</option>
              <option value="2">是</option>
            </select>
          </li>
          <li>
            <span>无限点循环次数设计</span>
            <select v-model="input.consider_Long">
              <option value="1">否</option>
              <option value="2">是</option>
            </select>
          </li>
          <li>
            <span>设计载荷输入形式</span>
            <select v-model="input.whether_rate_load">
              <option value="1">额定工况</option>
              <option value="2">载荷谱</option>
            </select>
          </li>
          <li>
            <a-upload :showUploadList="false" :maxCount="1" :customRequest="customRequest">
            <button v-show="input.whether_rate_load==2" style="width: 100%;float: right">
              行星架输入载荷谱
            </button>
            </a-upload>
          </li>
          <li style="height: 20%;width: 100%">
            <table v-show="input.whether_rate_load==2" style="width: 90%;height: 100%;font-size:13px;outline: 1px solid silver;margin-left:5%">
              <tr>
                <td>序号</td>
                <td>扭矩(Nmm)</td>
                <td>循环次数</td>
              </tr>
              <tr v-for="(item,index) in this.items" :key="index">
                <td>{{item[0]}}</td>
                <td>{{item[1]}}</td>
                <td>{{item[2]}} </td>
              </tr>
            </table>
          </li>
          <li >
            <span v-show="input.whether_rate_load==1">行星架输入形式</span>
            <select v-model="input.whether_torque" v-show="input.whether_rate_load==1" name="" id="">
              <option value="1">输入扭矩</option>
              <option value="2">输入功率</option>
            </select>
          </li>
          <li >
            <span v-show="input.whether_rate_load==1&&input.whether_torque==1">行星架输入扭矩(Nmm)</span>
            <span v-show="input.whether_rate_load==1&&input.whether_torque==2">行星架输入功率(Nmm)</span>
            <input v-show="input.whether_rate_load==1&&input.whether_torque==1" v-model="form1.spectrum_torque_carrier_s_1" type="text" value="1016740000">
            <input v-show="input.whether_rate_load==1&&input.whether_torque==2" v-model="form1.power_rate_carrier_s_1" type="text" value="1016740001">
          </li>
          <li>
            <span  v-show="input.whether_rate_load==1">设计寿命(hr)</span>
            <input  v-show="input.whether_rate_load==1" v-model="form1.spectrum_time_carrier_s_1" type="text" value="175200">
          </li>
          <li>
            <span>接触疲劳强度安全系数</span>
            <input type="text" v-model="input.S_H_fatigue">
          </li>
          <li>
            <span>接触静强度安全系数</span>
            <input type="text" v-model="input.S_H_static">
          </li>
          <li>
            <span>弯曲疲劳强度安全系数</span>
            <input type="text" v-model="input.S_F_fatigue">
          </li>
          <li>
            <span>弯曲静强度安全系数</span>
            <input type="text" v-model="input.S_F_static">
          </li>
          <li>
            <span>接触长寿命系数</span>
            <input type="text" v-model="input.Znt_Longlife">
          </li>
          <li>
            <span>弯曲长寿命系数</span>
            <input type="text" v-model="input.Ynt_Longlife">
          </li>
          <li>
            <span>润滑油40℃粘度(mm^2/s)</span>
            <input type="text" v-model="input.v_40">
          </li>
          <li>
            <span>润滑油类型</span>
            <select v-model="input.oil_type">
              <option value="1">矿物油</option>
              <option value="1">合成油</option>
            </select>
          </li>

        </ul>
      </div>
      <div class="da-mid">
        <div class="title" style="height: 3%">第1级行星轮系基本参数</div>
        <div class="da-mid-top">
          <ul style="width: 100%;height: 100%">
            <li>
              <span style="width: 22%;font-weight:bold">齿轮材料基本参数</span>
              <span style="width: 20%;margin-left: 7%">太阳轮</span>
              <span style="width: 20%">行星轮</span>
              <span style="width: 20%">齿圈</span>
            </li>
            <li>
              <span>材料类型</span>
              <select v-model="input.material_type_s_1">
                <option value="1">渗碳淬火</option>
                <option value="2">调质</option>
                <option value="3">渗氮钢</option>
                <option value="4">结构钢</option>
                <option value="5">感应淬火和火焰淬火钢</option>
                <option value="6">氮碳公渗钢</option>
              </select>
              <select v-model="input.material_type_p_1">
                <option value="1">渗碳淬火</option>
                <option value="2">调质</option>
                <option value="3">渗氮钢</option>
                <option value="4">结构钢</option>
                <option value="5">感应淬火和火焰淬火钢</option>
                <option value="6">氮碳公渗钢</option>
              </select>
              <select v-model="input.material_type_r_1">
                <option value="1">渗碳淬火</option>
                <option value="2">调质</option>
                <option value="3">渗氮钢</option>
                <option value="4">结构钢</option>
                <option value="5">感应淬火和火焰淬火钢</option>
                <option value="6">氮碳公渗钢</option>
              </select>
            </li>
            <li>
              <span>屈服应力(MPa)</span>
              <input type="text" v-model="input.sigma_s_s_1">
              <input type="text" v-model="input.sigma_s_p_1">
              <input type="text" v-model="input.sigma_s_r_1">
            </li>
            <li>
              <span>接触疲劳极限应力(MPa)</span>
              <input type="text" v-model="input.sigma_Hlim_s_1">
              <input type="text" v-model="input.sigma_Hlim_p_1">
              <input type="text" v-model="input.sigma_Hlim_r_1">
            </li>
            <li>
              <span>弯曲疲劳极限应力(MPa)</span>
              <input type="text" v-model="input.sigma_Flim_s_1">
              <input type="text" v-model="input.sigma_Flim_p_1">
              <input type="text" v-model="input.sigma_Flim_r_1">
            </li>
            <li>
              <span>齿面硬度(HB)</span>
              <input type="text" v-model="input.hardness_HB_s_1">
              <input type="text" v-model="input.hardness_HB_p_1">
              <input type="text" v-model="input.hardness_HB_r_1">
            </li>
            <li>
              <span>弹性模量(MPa)</span>
              <input type="text" v-model="input.E_s_1">
              <input type="text" v-model="input.E_p_1">
              <input type="text" v-model="input.E_r_1">
            </li>
            <li>
              <span>泊松比</span>
              <input type="text" v-model="input.possion_s_1">
              <input type="text" v-model="input.possion_p_1">
              <input type="text" v-model="input.possion_r_1">
            </li>
          </ul>
        </div>
        <div class="da-mid-mid">
          <ul style="width: 100%;height: 100%">
            <li>
              <span style="width: 22%;font-weight: bold">齿形参数输入</span>
              <span style="width: 20%;margin-left: 7%">太阳轮</span>
              <span style="width: 20%">行星轮</span>
              <span style="width: 20%">齿圈</span>
            </li>
            <li>
              <span>齿顶高系数</span>
              <input type="text" v-model="input.ad_factor_s_1">
              <input type="text" v-model="input.ad_factor_p_1">
              <input type="text" v-model="input.ad_factor_r_1">
            </li>
            <li>
              <span>顶隙系数</span>
              <input type="text" v-model="input.tip_factor_s_1">
              <input type="text" v-model="input.tip_factor_p_1">
              <input type="text" v-model="input.tip_factor_r_1">
            </li>
            <li>
              <span>齿根圆角半径系数</span>
              <input type="text" v-model="input.radius_factor_s_1">
              <input type="text" v-model="input.radius_factor_p_1">
              <input type="text" v-model="form1.radius_factor_r_1">
            </li>
            <li>
              <span>轮缘厚度系数</span>
              <input type="text" v-model="input.SR_s_1">
              <input type="text" v-model="input.SR_p_1">
              <input type="text" v-model="input.SR_r_1">
            </li>
            <li>
              <span>齿向倒角高度(直径)(mm)</span>
              <input type="text" v-model="input.chamfer_dia_s_1">
              <input type="text" v-model="input.chamfer_dia_p_1">
              <input type="text" v-model="input.chamfer_dia_r_1">
            </li>
            <li>
              <span>齿向倒角角度(°)</span>
              <input type="text" v-model="input.chamfer_angle_s_1">
              <input type="text" v-model="input.chamfer_angle_p_1">
              <input type="text" v-model="input.chamfer_angle_r_1">
            </li>
            <li>
              <span>齿顶削减量(直径)(mm)</span>
              <input type="text" v-model="input.ad_cut_dia_s_1">
              <input type="text" v-model="input.ad_cut_dia_p_1">
              <input type="text" v-model="input.ad_cut_dia_r_1">
            </li>
            <li>
              <span>挖根量(mm)</span>
              <input type="text" v-model="input.undercut_s_1">
              <input type="text" v-model="input.undercut_p_1">
              <input type="text" v-model="input.undercut_r_1">
            </li>
            <li>
              <span>齿面粗糙度Rz(um)</span>
              <input type="text" v-model="input.R_z_flank_s_1">
              <input type="text" v-model="input.R_z_flank_p_1">
              <input type="text" v-model="input.R_z_flank_r_1">
            </li>
            <li>
              <span>齿根圆角粗糙度RZ(Um)</span>
              <input type="text" v-model="input.R_z_root_s_1">
              <input type="text" v-model="input.R_z_root_p_1">
              <input type="text" v-model="input.R_z_root_r_1">
            </li>
            <li>
              <span>齿厚上偏差(um)</span>
              <input type="text" v-model="form1.thickness_reduction_s_1">
              <input type="text" v-model="form1.thickness_reduction_p_1">
              <input type="text" v-model="form1.thickness_reduction_r_1">
            </li>
            <li>
              <span>齿厚公差(um)</span>
              <input type="text" v-model="form1.tooth_thickness_tolerance_s_1">
              <input type="text" v-model="form1.tooth_thickness_tolerance_p_1">
              <input type="text" v-model="form1.tooth_thickness_tolerance_r_1">
            </li>
            <li>
              <span>弯曲强度计算齿厚值(um)</span>
              <label style="height: 100%;display:block;float:left;width: 10%;margin-left: 2%;font-size: 13px">{{output.thickness_reduction_last_s_1}}</label>
              <select style="margin-left: 0;width: 9%" v-model="form1.bend_strength_thickness_s_1">
                <option value="1">最小</option>
                <option value="2">平均</option>
                <option value="3">最大</option>
              </select>
              <label style="height: 100%;display:block;float:left;width: 10%;margin-left: 2%;font-size: 13px">{{output.thickness_reduction_last_p_1}}</label>
              <select v-model="form1.bend_strength_thickness_p_1" style="margin-left: 0;width: 9%">
                <option value="1">最小</option>
                <option value="2">平均</option>
                <option value="3">最大</option>
              </select>
              <label style="height: 100%;display:block;float:left;width: 10%;margin-left: 2%;font-size: 13px">{{output.thickness_reduction_last_r_1}}</label>
              <select v-model="form1.bend_strength_thickness_r_1" style="margin-left: 0;width: 9%">
                <option value="1">最小</option>
                <option value="2">平均</option>
                <option value="3">最大</option>
              </select>
            </li>
            <li>
              <span>加工齿圈刀具变位系数</span>
              <input type="text" style="width: 20%" v-model="form1.cutter_shift_coefficient_1" :disabled="form1.auto_cutter_1==1">
              <label>
                <input v-model="form1.auto_cutter_1" type="radio" style="outline: none" name="type3" value="1">
                自动
              </label>
            </li>
            <li>
              <span>加工齿圈刀具齿数</span>
              <input type="text" style="width: 20%" v-model="form1.z_cutter_1" :disabled="form1.auto_cutter_1==1">
              <label  for="">
                <input type="radio" v-model="form1.auto_cutter_1" style="outline: none" name="type3" value="2">
                手动
              </label>
            </li>
          </ul>
        </div>
        <div class="da-mid-bottom">
          <ul style="width: 100%;height: 100%;">
            <li>
              <span style="width: 22%;font-weight:bold">系数参数</span>
              <label for="" style="margin-left: 16.5%">外啮合</label>
              <label for="" style="margin-left: 12%">内啮合</label>
            </li>
            <li>
              <span>使用系数</span>
              <input type="text" style="width: 15%" v-model="input.K_A_external_1">
              <input type="text" style="width: 15%" v-model="input.K_A_internal_1">
              <button style="height: 90%;margin-left: 1%" @click="showModal4">！</button>
            </li>
            <li>
              <span>动载系数</span>
              <input type="text" style="width: 15%" v-model="input.K_V_external_1">
              <input type="text" style="width: 15%" v-model="input.K_V_internal_1">
              <button style="height: 90%;margin-left: 1%" @click="showModal5" >！</button>
            </li>
            <li>
              <span>接触齿向载荷分布系数</span>
              <input type="text" style="width: 15%" v-model="input.K_Hb_external_1">
              <input type="text" style="width: 15%" v-model="input.K_Hb_internal_1">
            </li>
            <li>
              <span>接触齿间载荷分布系数</span>
              <input type="text" style="width: 15%" v-model="input.K_Ha_external_1">
              <input type="text" style="width: 15%" v-model="input.K_Ha_internal_1">
              <button style="height: 90%;margin-left: 1%" @click="showModal6">！</button>
            </li>
            <li>
              <span>弯曲齿向载荷分布系数</span>
              <input type="text" style="width: 15%" v-model="input.K_Fb_external_1">
              <input type="text" style="width: 15%" v-model="input.K_Fb_internal_1">
            </li>
            <li>
              <span>弯曲齿间载荷分布系数</span>
              <input type="text" style="width: 15%" v-model="input.K_Fa_external_1">
              <input type="text" style="width: 15%" v-model="input.K_Fa_internal_1">
              <button style="height: 90%;margin-left: 1%" @click="showModal6">！</button>
            </li>
            <li>
              <span>静强度使用系数</span>
              <input type="text" style="width: 15%" v-model="input.K_A_external_s_1">
              <input type="text" style="width: 15%" v-model="input.K_A_internal_s_1">
            </li>
          </ul>
        </div>
      </div>
      <div class="da-mid">
        <div class="title" style="height: 3%;">第2级行星轮系基本参数</div>
        <div class="da-mid-top">
          <ul style="width: 100%;height: 100%">
            <li>
              <span style="width: 22%;font-weight:bold">齿轮材料基本参数</span>
              <span style="width: 20%;margin-left: 7%">太阳轮</span>
              <span style="width: 20%">行星轮</span>
              <span style="width: 20%">齿圈</span>
            </li>
            <li>
              <span>材料类型</span>
              <select v-model="input.material_type_s_2">
                <option value="1">渗碳淬火</option>
                <option value="2">调质</option>
                <option value="3">渗氮钢</option>
                <option value="4">结构钢</option>
                <option value="5">感应淬火和火焰淬火钢</option>
                <option value="6">氮碳公渗钢</option>
              </select>
              <select v-model="input.material_type_p_2">
                <option value="1">渗碳淬火</option>
                <option value="2">调质</option>
                <option value="3">渗氮钢</option>
                <option value="4">结构钢</option>
                <option value="5">感应淬火和火焰淬火钢</option>
                <option value="6">氮碳公渗钢</option>
              </select>
              <select v-model="input.material_type_r_2">
                <option value="1">渗碳淬火</option>
                <option value="2">调质</option>
                <option value="3">渗氮钢</option>
                <option value="4">结构钢</option>
                <option value="5">感应淬火和火焰淬火钢</option>
                <option value="6">氮碳公渗钢</option>
              </select>
            </li>
            <li>
              <span>屈服应力(MPa)</span>
              <input type="text" v-model="input.sigma_s_s_2">
              <input type="text" v-model="input.sigma_s_p_2">
              <input type="text" v-model="input.sigma_s_r_2">
            </li>
            <li>
              <span>接触疲劳极限应力(MPa)</span>
              <input type="text" v-model="input.sigma_Hlim_s_2">
              <input type="text" v-model="input.sigma_Hlim_p_2">
              <input type="text" v-model="input.sigma_Hlim_r_2">
            </li>
            <li>
              <span>弯曲疲劳极限应力(MPa)</span>
              <input type="text" v-model="input.sigma_Flim_s_2">
              <input type="text" v-model="input.sigma_Flim_p_2">
              <input type="text" v-model="input.sigma_Flim_r_2">
            </li>
            <li>
              <span>齿面硬度(HB)</span>
              <input type="text" v-model="input.hardness_HB_s_2">
              <input type="text" v-model="input.hardness_HB_p_2">
              <input type="text" v-model="input.hardness_HB_r_2">
            </li>
            <li>
              <span>弹性模量(MPa)</span>
              <input type="text" v-model="input.E_s_2">
              <input type="text" v-model="input.E_p_2">
              <input type="text" v-model="input.E_r_2">
            </li>
            <li>
              <span>泊松比</span>
              <input type="text" v-model="input.possion_s_2">
              <input type="text" v-model="input.possion_p_2">
              <input type="text" v-model="input.possion_r_2">
            </li>
          </ul>
        </div>
        <div class="da-mid-mid">
          <ul style="width: 100%;height: 100%">
            <li>
              <span style="width: 22%;font-weight: bold">齿形参数输入</span>
              <span style="width: 20%;margin-left: 7%">太阳轮</span>
              <span style="width: 20%">行星轮</span>
              <span style="width: 20%">齿圈</span>
            </li>
            <li>
              <span>齿顶高系数</span>
              <input type="text" v-model="input.ad_factor_s_2">
              <input type="text" v-model="input.ad_factor_p_2">
              <input type="text" v-model="input.ad_factor_r_2">
            </li>
            <li>
              <span>顶隙系数</span>
              <input type="text" v-model="input.tip_factor_s_2">
              <input type="text" v-model="input.tip_factor_p_2">
              <input type="text" v-model="input.tip_factor_r_2">
            </li>
            <li>
              <span>齿根圆角半径系数</span>
              <input type="text" v-model="input.radius_factor_s_2">
              <input type="text" v-model="input.radius_factor_p_2">
              <input type="text" v-model="form1.radius_factor_r_2">
            </li>
            <li>
              <span>轮缘厚度系数</span>
              <input type="text" v-model="input.SR_s_2">
              <input type="text" v-model="input.SR_p_2">
              <input type="text" v-model="input.SR_r_2">
            </li>
            <li>
              <span>齿向倒角高度(直径)(mm)</span>
              <input type="text" v-model="input.chamfer_dia_s_2">
              <input type="text" v-model="input.chamfer_dia_p_2">
              <input type="text" v-model="input.chamfer_dia_r_2">
            </li>
            <li>
              <span>齿向倒角角度(°)</span>
              <input type="text" v-model="input.chamfer_angle_s_2">
              <input type="text" v-model="input.chamfer_angle_p_2">
              <input type="text" v-model="input.chamfer_angle_r_2">
            </li>
            <li>
              <span>齿顶削减量(直径)(mm)</span>
              <input type="text" v-model="input.ad_cut_dia_s_2">
              <input type="text" v-model="input.ad_cut_dia_p_2">
              <input type="text" v-model="input.ad_cut_dia_r_2">
            </li>
            <li>
              <span>挖根量(mm)</span>
              <input type="text" v-model="input.undercut_s_2">
              <input type="text" v-model="input.undercut_p_2">
              <input type="text" v-model="input.undercut_r_2">
            </li>
            <li>
              <span>齿面粗糙度Rz(um)</span>
              <input type="text" v-model="input.R_z_flank_s_2">
              <input type="text" v-model="input.R_z_flank_p_2">
              <input type="text" v-model="input.R_z_flank_r_2">
            </li>
            <li>
              <span>齿根圆角粗糙度RZ(Um)</span>
              <input type="text" v-model="input.R_z_root_s_2">
              <input type="text" v-model="input.R_z_root_p_2">
              <input type="text" v-model="input.R_z_root_r_2">
            </li>
            <li>
              <span>齿厚上偏差(um)</span>
              <input type="text" v-model="form1.thickness_reduction_s_2">
              <input type="text" v-model="form1.thickness_reduction_p_2">
              <input type="text" v-model="form1.thickness_reduction_r_2">
            </li>
            <li>
              <span>齿厚公差(um)</span>
              <input type="text" v-model="form1.tooth_thickness_tolerance_s_2">
              <input type="text" v-model="form1.tooth_thickness_tolerance_p_2">
              <input type="text" v-model="form1.tooth_thickness_tolerance_r_2">
            </li>
            <li>
              <span>弯曲强度计算齿厚值(um)</span>
              <label style="height: 100%;display:block;float:left;width: 10%;margin-left: 2%;font-size: 13px">{{output.thickness_reduction_last_s_2}}</label>
              <select v-model="form1.bend_strength_thickness_s_2" style="margin-left: 0;width: 9%">
                <option value="1">最小</option>
                <option value="2">平均</option>
                <option value="3">最大</option>
              </select>
              <label style="height: 100%;display:block;float:left;width: 10%;margin-left: 2%;font-size: 13px">{{output.thickness_reduction_last_p_2}}</label>
              <select v-model="form1.bend_strength_thickness_p_2" style="margin-left: 0;width: 9%">
                <option value="1">最小</option>
                <option value="2">平均</option>
                <option value="3">最大</option>
              </select>
              <label style="height: 100%;display:block;float:left;width: 10%;margin-left: 2%;font-size: 13px">{{output.thickness_reduction_last_r_2}}</label>
              <select v-model="form1.bend_strength_thickness_r_2" style="margin-left: 0;width: 9%">
                <option value="1">最小</option>
                <option value="2">平均</option>
                <option value="3">最大</option>
              </select>
            </li>
            <li>
              <span>加工齿圈刀具变位系数</span>
              <input type="text" style="width: 20%" v-model="form1.cutter_shift_coefficient_2" :disabled="form1.auto_cutter_2==1">
              <label>
                <input v-model="form1.auto_cutter_2" type="radio" style="outline: none" name="type4" value="1">
                自动
              </label>
            </li>
            <li>
              <span>加工齿圈刀具齿数</span>
              <input type="text" style="width: 20%" v-model="form1.z_cutter_2" :disabled="form1.auto_cutter_2==1">
              <label  for="">
                <input type="radio" v-model="form1.auto_cutter_2" style="outline: none" name="type4" value="2">
                手动
              </label>
            </li>
          </ul>
        </div>
        <div class="da-mid-bottom">
          <ul style="width: 100%;height: 100%;">
            <li>
              <span style="width: 22%;font-weight:bold">系数参数</span>
              <label for="" style="margin-left: 16.5%">外啮合</label>
              <label for="" style="margin-left: 12%">内啮合</label>
            </li>
            <li>
              <span>使用系数</span>
              <input type="text" style="width: 15%" v-model="input.K_A_external_2">
              <input type="text" style="width: 15%" v-model="input.K_A_internal_2">
              <button style="height: 90%;margin-left: 1%" @click="showModal4">！</button>
            </li>
            <li>
              <span>动载系数</span>
              <input type="text" style="width: 15%" v-model="input.K_V_external_2">
              <input type="text" style="width: 15%" v-model="input.K_V_internal_2">
              <button style="height: 90%;margin-left: 1%" @click="showModal5">！</button>
            </li>
            <li>
              <span>接触齿向载荷分布系数</span>
              <input type="text" style="width: 15%" v-model="input.K_Hb_external_2">
              <input type="text" style="width: 15%" v-model="input.K_Hb_internal_2">
            </li>
            <li>
              <span>接触齿间载荷分布系数</span>
              <input type="text" style="width: 15%" v-model="input.K_Ha_external_2">
              <input type="text" style="width: 15%" v-model="input.K_Ha_internal_2">
              <button style="height: 90%;margin-left: 1%" @click="showModal6">！</button>
            </li>
            <li>
              <span>弯曲齿向载荷分布系数</span>
              <input type="text" style="width: 15%" v-model="input.K_Fb_external_2">
              <input type="text" style="width: 15%" v-model="input.K_Fb_internal_2">
            </li>
            <li>
              <span>弯曲齿间载荷分布系数</span>
              <input type="text" style="width: 15%" v-model="input.K_Fa_external_2">
              <input type="text" style="width: 15%" v-model="input.K_Fa_internal_2">
              <button style="height: 90%;margin-left: 1%" @click="showModal6">！</button>
            </li>
            <li>
              <span>静强度使用系数</span>
              <input type="text" style="width: 15%" v-model="input.K_A_external_s_2">
              <input type="text" style="width: 15%" v-model="input.K_A_internal_s_2">
            </li>
          </ul>
        </div>
      </div>
      <div class="da-right">
        <div class="title" style="height: 3.3%">
          <span style="font-size: 17.5px;width: 50%;">1级平行轴基本参数</span>
        </div>
        <div class="da-right-top">
          <ul style="width: 100%;height: 100%">
            <li>
              <span style="font-weight: bold">齿轮材料基本参数</span>
              <span style="width: 20%;margin-left: 1%">小轮</span>
              <span style="width: 20%;margin-left: 7%">大轮</span>
            </li>
            <li>
              <span>材料类型</span>
              <select v-model="input.material_type_p_3">
                <option value="1">渗碳淬火</option>
                <option value="2">调质</option>
                <option value="3">渗氮钢</option>
                <option value="4">结构钢</option>
                <option value="5">感应淬火和火焰淬火钢</option>
                <option value="6">氮碳公渗钢</option>
              </select>
              <select v-model="input.material_type_w_3">
                <option value="1">渗碳淬火</option>
                <option value="2">调质</option>
                <option value="3">渗氮钢</option>
                <option value="4">结构钢</option>
                <option value="5">感应淬火和火焰淬火钢</option>
                <option value="6">氮碳公渗钢</option>
              </select>
            </li>
            <li>
              <span>屈服应力(MPa)</span>
              <input type="text" v-model="input.sigma_s_p_3">
              <input type="text" v-model="input.sigma_s_w_3">
            </li>
            <li>
              <span>接触疲劳极限应力(MPa)</span>
              <input type="text" v-model="input.sigma_Hlim_p_3">
              <input type="text" v-model="input.sigma_Hlim_w_3">
            </li>
            <li>
              <span>弯曲疲劳极限应力(MPa)</span>
              <input type="text" v-model="input.sigma_Flim_p_3">
              <input type="text" v-model="input.sigma_Flim_w_3">
            </li>
            <li>
              <span>齿面硬度(HB)</span>
              <input type="text" v-model="input.hardness_HB_p_3">
              <input type="text" v-model="input.hardness_HB_w_3">
            </li>
            <li>
              <span>弹性模量(MPa)</span>
              <input type="text" v-model="input.E_p_3">
              <input type="text" v-model="input.E_w_3">
            </li>
            <li>
              <span>泊松比</span>
              <input type="text" v-model="input.possion_p_3">
              <input type="text" v-model="input.possion_w_3">
            </li>
          </ul>
        </div>
        <div class="da-right-mid">
          <ul style="width: 100%;height: 100%">
            <li>
              <span style="font-weight: bold">齿形参数输入</span>
              <span style="width: 20%;margin-left: 1%">小轮</span>
              <span style="width: 20%;margin-left: 7%">大轮</span>
            </li>
            <li>
              <span>齿顶高系数</span>
              <input type="text" v-model="input.ad_factor_p_3">
              <input type="text" v-model="input.ad_factor_w_3">
            </li>
            <li>
              <span>顶隙系数</span>
              <input type="text" v-model="input.tip_factor_p_3">
              <input type="text" v-model="input.tip_factor_w_3">
            </li>
            <li>
              <span>齿根圆角半径系数</span>
              <input type="text" v-model="input.radius_factor_p_3">
              <input type="text" v-model="input.radius_factor_w_3">
            </li>
            <li>
              <span>轮缘厚度系数</span>
              <input type="text" v-model="form1.SR_p_3">
              <input type="text" v-model="form1.SR_w_3">
            </li>
            <li>
              <span>齿向倒角高度(直径)(mm)</span>
              <input type="text" v-model="input.chamfer_dia_p_3">
              <input type="text" v-model="input.chamfer_dia_w_3">
            </li>
            <li>
              <span>齿向倒角角度(°)</span>
              <input type="text" v-model="input.chamfer_angle_p_3">
              <input type="text" v-model="input.chamfer_angle_w_3">
            </li>
            <li>
              <span>齿顶削减量(直径)(mm)</span>
              <input type="text" v-model="input.ad_cut_dia_p_3">
              <input type="text" v-model="input.ad_cut_dia_w_3">
            </li>
            <li>
              <span>挖根量(mm)</span>
              <input type="text" v-model="input.undercut_p_3">
              <input type="text" v-model="input.undercut_w_3">
            </li>
            <li>
              <span>齿面粗糙度Rz(um)</span>
              <input type="text" v-model="input.R_z_flank_p_3">
              <input type="text" v-model="input.R_z_flank_w_3">
            </li>
            <li>
              <span>齿根圆角粗糙度RZ(Um)</span>
              <input type="text" v-model="input.R_z_root_p_3">
              <input type="text" v-model="input.R_z_root_w_3">
            </li>
            <li>
              <span>齿厚上偏差(um)</span>
              <input type="text" v-model="form1.thickness_reduction_p_3">
              <input type="text" v-model="form1.thickness_reduction_w_3">
            </li>
            <li>
              <span>齿厚公差(um)</span>
              <input type="text" v-model="form1.tooth_thickness_tolerance_p_3">
              <input type="text" v-model="form1.tooth_thickness_tolerance_w_3">
            </li>
            <li>
              <span>弯曲强度计算齿厚值(um)</span>
              <label  style="height: 100%;display:block;float:left;width: 10%;margin-left: 2%;font-size: 13px;text-align: center">{{ output.thickness_reduction_last_p_3 }}</label>
              <select v-model="form1.bend_strength_thickness_p_3" style="margin-left: 0;width: 15%">
                <option value="1">最小</option>
                <option value="2">平均</option>
                <option value="3">最大</option>
              </select>
              <label style="height: 100%;display:block;float:left;width: 10%;margin-left: 2%;font-size: 13px;text-align: center">{{output.thickness_reduction_last_w_3}}</label>
              <select v-model="form1.bend_strength_thickness_w_3" style="margin-left: 0;width: 15%">
                <option value="1">最小</option>
                <option value="2">平均</option>
                <option value="3">最大</option>
              </select>
            </li>
          </ul>
        </div>
        <div class="da-right-bottom">
          <ul style="width: 100%;height: 100%;">
            <li>
              <span style="font-weight: bold;text-align: left">系数参数</span>
            </li>
            <li>
              <span>使用系数</span>
              <input type="text" style="width: 30%" v-model="input.K_A_3">
              <button style="width: 7%;height: 90%;margin-left: 1%" @click="showModal4">！</button>
            </li>
            <li>
              <span>动载系数</span>
              <input type="text" style="width: 30%" v-model="input.K_V_3">
              <button style="width: 7%;height: 90%;margin-left: 1%" @click="showModal5">！</button>
            </li>
            <li>
              <span>接触齿向载荷分布系数</span>
              <input type="text" style="width: 30%" v-model="input.K_Hb_3">
            </li>
            <li>
              <span>接触齿间载荷分布系数</span>
              <input type="text" style="width: 30%" v-model="input.K_Ha_3">
              <button style="width: 7%;height: 90%;margin-left: 1%" @click="showModal6">！</button>
            </li>
            <li>
              <span>弯曲齿向载荷分布系数</span>
              <input type="text" style="width: 30%" v-model="input.K_Fb_3">
            </li>
            <li>
              <span>弯曲齿间载荷分布系数</span>
              <input type="text" style="width: 30%" v-model="input.K_Fa_3">
              <button style="height: 90%;margin-left: 1%;width: 7%;" @click="showModal6"> ！</button>
            </li>
            <li>
              <span>静强度使用系数</span>
              <input type="text" style="width: 30%" v-model="input.K_A_s_3">
            </li>
          </ul>
        </div>
      </div>
      <button class="button1" style="height: 3%;width: 5%;margin-left: 11%;margin-top: 0.5%" @click="onSubmit">计算</button>
    </div>
    <div class="db" :class="{ B_show: this.Bcanshow }">
      <div class="db-left">
        <span class="title" style="height: 2.5%">第1级行星轮系宏观参数设计模块</span>
        <ul style="width: 100%;height: 100%">
          <li style="margin-top: 0.5%">
            <span style="width: 15%;height:100%;display: block;float: left;text-align: right;margin-right: 1%">总传动比</span>
            <input type="text" v-model="input.ratio_aim_total" style="display: block;float:left;height: 90%;width: 12%;">
            <span style="width: 15%;height:100%;display: block;float: left;text-align: right;">最大设计宽径比</span>
            <input type="text" v-model="input.ratio_width_diameter_max_1" style="display: block;float:left;margin-left:0.5%;height: 90%;width: 12%;">
            <button @click="showModal2" style="display: block;float:left;height: 92%;width: 4%;"> ！</button>
            <span style="width: 21%;height:100%;display: block;float: left;text-align: right;">齿圈预留法向轮缘系数</span>
            <input type="text" style="display: block;float:left;height: 90%;width: 12%;margin-left: 0.5%" v-model="input.abundant_ring_rim_factor_1" >
          </li>
          <li>
            <span style="width: 15%;height:100%;display: block;float: left;text-align: right;margin-right: 1%">目标齿数比</span>
            <input type="text" v-model="input.ratio_aim_1" style="display: block;float:left;height: 90%;width: 12%;">
            <span style="width: 15%;height:100%;display: block;float: left;text-align: right;">行星轮个数</span>
            <input type="text" v-model="input.planet_number_1" style="display: block;float:left;margin-left:0.5%;height: 90%;width: 12%;">
            <span style="margin-left:4%;width: 21%;height:100%;display: block;float: left;text-align: right;">不均载系数</span>
            <input type="text" style="display: block;float:left;height: 90%;width: 12%;margin-left: 0.5%" v-model="input.load_share_factor_1" >
          </li>
          <li>
            <span style="margin-left: 40%">外啮合</span>
            <span style="margin-left: 30%">内啮合</span>
          </li>
          <li>
            <span style="margin-left: 30%">太阳轮</span>
            <span style="margin-left: 13%">行星轮</span>
            <span style="margin-left: 10%">行星轮</span>
            <span style="margin-left: 15%">齿圈</span>
          </li>
          <li>
            <span>设计法向压力角(°)</span>
            <input type="text" style="width: 70%;" v-model="input.press_angle_1">
          </li>
          <li>
            <span>设计螺旋角(°)</span>
            <input type="text" style="width: 70%;" v-model="input.helix_angle_1">
          </li>
          <li>
            <span>设计宽径比</span>
            <label >{{ output.ratio_width_diameter_s_1 }}</label>
            <label style="margin-left: 8%">{{output.ratio_width_diameter_p_1}}</label>
            <label style="margin-left: 8%">{{output.ratio_width_diameter_r_1}}</label>
          </li>
          <li>
            <span>参考分度圆直径(mm)</span>
            <label >{{ output.tran_refer_dia_s_1 }}</label>
            <label style="margin-left: 8%">{{output.tran_refer_dia_p_1}}</label>
            <label style="margin-left: 8%">{{output.tran_refer_dia_r_1}}</label>
          </li>
          <li>
            <span>参考中心距(mm)</span>
            <label style="margin-left: 25%">{{ output.center_refer_strength_1 }}</label>
          </li>
          <li>
            <span>参考齿圈最大外径(mm)</span>
            <label style="margin-left: 25%">{{ output.max_dia_refer_strength_1 }}</label>
          </li>
          <li>
            <span>参考法向模数(mm)</span>
            <label style="margin-left: 25%">{{ output.normal_module_refer_1 }}</label>
          </li>
          <li>
            <span>设计法向模数(mm)</span>
            <input type="text" style="width: 70%;" v-model="input.normal_module_1">
          </li>
          <li>
            <span>参考齿数</span>
            <label >{{output.z_s_refer_1}}</label>
            <label style="margin-left: 7%">{{output.z_p_refer_1}}</label>
            <label style="margin-left: 8%">{{output.z_r_refer_1}}</label>
          </li>
          <li>
            <span>齿数调整值</span>
            <select style="width:6%;display: block;float:left;margin-left:33.5%;height: 100%" v-model="input.z_p_adjust_1">
              <option value="0">0</option>
              <option value="-2">-2</option>
              <option value="-1">-1</option>
              <option value="1">1</option>
              <option value="2">2</option>
            </select>
            <label style="width: 6%;margin-left: 18.5%;">{{ output.z_r_change_1 }}</label>
            <select style="width:6%;display: block;float:left;height: 100%" v-model="input.z_r_adjust_1">
              <option value="0">0</option>
              <option value="-6">-6</option>
              <option value="-5">-5</option>
              <option value="-4">-4</option>
              <option value="-3">-3</option>
              <option value="-2">-2</option>
              <option value="-1">-1</option>
              <option value="1">1</option>
              <option value="2">2</option>
              <option value="3">3</option>
              <option value="4">4</option>
              <option value="5">5</option>
              <option value="6">6</option>
            </select>
          </li>
          <li>
            <span>设计齿数</span>
            <input type="text" style="width: 15%;" v-model="input.z_s_1">
            <label style="margin-left: 10%">{{output.z_p_1}}</label>
            <label style="margin-left: 8%"></label>
          </li>
          <li>
            <span>设计齿数比</span>
            <label style="margin-left: 25%">{{ output.ratio_design_1 }}</label>
          </li>
          <li>
            <span>齿数比差值百分比</span>
            <label style="margin-left: 25%">{{ output.ratio_different_1 }}</label>
          </li>
          <li>
            <span>设计齿宽(mm)</span>
            <label style="margin-left: 25%">{{output.effect_width_1}}</label>
          </li>
          <li>
            <span>标准中心距(mm)</span>
            <label style="margin-left: 18%">{{ output.standard_center_external_1 }}</label>
            <label style="margin-left: -1.5%">{{ output.standard_center_internal_1 }}</label>
            <input v-model="input.auto_work_center_1" type="radio" name="type5" style="width: 5%;margin-left: 4.5%;" value="1">自动
          </li>
          <li>
            <span>设计中心距(mm)</span>
            <div style="float:left;height: 100%;width: 55%">
              <input v-show="input.auto_work_center_1==2" type="text" style="width: 100%" v-model="input.work_center_manual_1">
              <label v-show="input.auto_work_center_1==1"  style="width: 30%;margin-left: 46%">{{ output.work_center_1_1 }}</label>
            </div>
            <input v-model="input.auto_work_center_1" type="radio" name="type5" style="width: 5%" value="2">手动
          </li>
          <li>
            <span v-show="!(input.auto_work_center_1==1)">参考法向变位系数</span>
            <label style="margin-left: 0%" v-show="!(input.auto_work_center_1==1)">static text</label>
            <label style="margin-left: 8%" v-show="!(input.auto_work_center_1==1)">static text</label>
            <button style="width: 3%;margin-left: 13%" v-show="!(input.auto_work_center_1==1)">！</button>
          </li>
          <li>
            <span>设计法向变位系数</span>
            <input type="text" style="width: 15%;" v-model="input.normal_modi_factor_s_1">
            <label style="margin-left: 10%">{{ output.normal_modi_factor_p_1 }}</label>
            <label style="margin-left: 7%">{{output.normal_modi_factor_r_1}}</label>
            <button style="width: 3%" @click="showModal1" v-show="input.auto_work_center_1==1">！</button>
          </li>
          <li>
            <span>滑动率</span>
            <label >{{ output.slip_s_external_1 }}</label>
            <label style="margin-left: 0%">{{output.slip_p_external_1}}</label>
            <label style="width: 15%">{{output.slip_p_internal_1}}</label>
            <label style="">{{output.slip_r_internal_1}}</label>
          </li>
          <li>
            <span>法向齿顶宽系数</span>
            <label >{{output.normal_width_tip_factor_s_1}}</label>
            <label style="margin-left: 8%">{{output.normal_width_tip_factor_p_1}}</label>
            <label style="margin-left: 7%">{{output.normal_width_tip_factor_r_1}}</label>
          </li>
          <li>
            <span>轴向重合度</span>
            <label style="margin-left: 18%">{{output.axial_contact_ratio_external_1}}</label>
            <label style="margin-left: -1.5%">{{output.axial_contact_ratio_internal_1}}</label>
          </li>
          <li>
            <span>端面重合度</span>
            <label style="margin-left: 18%">{{ output.tran_contact_ratio_external_1 }}</label>
            <label style="margin-left: -1.5%">{{output.tran_contact_ratio_internal_1}}</label>
          </li>
          <li>
            <span>总重合度</span>
            <label style="margin-left: 18%">{{output.total_contact_ratio_external_1}}</label>
            <label style="margin-left: -1.5%">{{output.total_contact_ratio_internal_1}}</label>
          </li>
          <li>
            <span>接触疲劳强度裕度</span>
            <label >{{output.abundant_H_fatigue_s_external_1}}</label>
            <label style="margin-left: 0%">{{ output.abundant_H_fatigue_p_external_1 }}</label>
            <label style="width: 15%">{{ output.abundant_H_fatigue_p_internal_1 }}</label>
            <label style="">{{output.abundant_H_fatigue_r_internal_1}}</label>
          </li>
          <li>
            <span>弯曲疲劳强度裕度</span>
            <label >{{ output.abundant_F_fatigue_s_external_1 }}</label>
            <label style="margin-left: 0%">{{output.abundant_F_fatigue_p_external_1}}</label>
            <label style="width: 15%">{{output.abundant_F_fatigue_p_internal_1}}</label>
            <label style="">{{output.abundant_F_fatigue_r_internal_1}}</label>
          </li>
          <li>
            <span>接触静强度裕度</span>
            <label >{{output.abundant_H_static_s_external_1}}</label>
            <label style="margin-left: 0%">{{output.abundant_H_static_p_external_1}}</label>
            <label style="width: 15%">{{output.abundant_H_static_p_internal_1}}</label>
            <label style="">{{output.abundant_H_static_r_internal_1}}</label>
          </li>
          <li>
            <span>弯曲静强度裕度</span>
            <label >{{ output.abundant_F_static_s_external_1 }}</label>
            <label style="margin-left: 0%">{{output.abundant_F_static_p_external_1}}</label>
            <label style="width: 15%">{{output.abundant_F_static_p_internal_1}}</label>
            <label style="">{{output.abundant_F_static_r_internal_1}}</label>
          </li>
          <li>
            <span>行星轮间隙系数</span>
            <label style="margin-left: 25%">{{ output.clearance_planet_factor_1 }}</label>
          </li>
          <li>
            <span>设计齿圈最大外径(mm)</span>
            <label style="margin-left: 25%">{{ output.max_dia_ring_design_1 }}</label>
          </li>
          <li>
            <span>端面齿顶圆直径(mm)</span>
            <label >{{ output.tran_practice_ad_dia_s_1 }}</label>
            <label style="margin-left: 8%">{{output.tran_practice_ad_dia_p_1}}</label>
            <label style="margin-left: 7%">{{output.tran_practice_ad_dia_r_1}}</label>
          </li>
          <li>
            <span>端面齿根圆直径(mm)</span>
            <label >{{ output.tran_de_dia_s_1 }}</label>
            <label style="margin-left: 8%">{{output.tran_de_dia_p_1}}</label>
            <label style="margin-left: 7%">{{output.tran_de_dia_r_1}}</label>
          </li>
          <li>
            <span>轴承最大外径(mm)</span>
            <label style="margin-left: 25%">static text</label>
          </li>
          <li>
            <span>节圆线速度(m/s)</span>
            <label style="margin-left: 18%">{{ output.v_pitch_external_1 }}</label>
            <label style="margin-left: -1.5%">{{ output.v_pitch_internal_1 }}</label>
          </li>
        </ul>
      </div>
      <div class="db-left">
        <span class="title" style="height: 2.5%">第2级行星轮系宏观参数设计模块</span>
        <ul style="width: 100%;height: 100%">
          <li style="margin-top: 0.5%">
            <span style="width: 15%;height:100%;display: block;float: left;text-align: right;margin-right: 1%">目标齿数比</span>
            <input type="text" v-model="input.ratio_aim_2" style="display: block;float:left;height: 90%;width: 12%;">
            <span style="width: 15%;height:100%;display: block;float: left;text-align: right;">最大设计宽径比</span>
            <input type="text" v-model="input.ratio_width_diameter_max_2" style="display: block;float:left;margin-left:0.5%;height: 90%;width: 12%;">
            <button @click="showModal2" style="display: block;float:left;height: 92%;width: 4%;"> ！</button>
            <span style="width: 21%;height:100%;display: block;float: left;text-align: right;">齿圈预留法向轮缘系数</span>
            <input type="text" style="display: block;float:left;height: 90%;width: 12%;margin-left: 0.5%" v-model="input.abundant_ring_rim_factor_2" >
          </li>
          <li>
            <span style="width: 15%;height:100%;display: block;float: left;text-align: right;margin-right: 1%">行星轮个数</span>
            <input type="text" v-model="input.planet_number_2" style="display: block;float:left;height: 90%;width: 12%;">
            <span style="width: 15%;height:100%;display: block;float: left;text-align: right;">不均载系数</span>
            <input type="text" v-model="input.load_share_factor_2" style="display: block;float:left;margin-left:0.5%;height: 90%;width: 12%;">
            <button @click="showModal3" style="display: block;float:left;height: 92%;width: 4%;"> ！</button>
          </li>
          <li>
            <span style="margin-left: 40%">外啮合</span>
            <span style="margin-left: 30%">内啮合</span>
          </li>
          <li>
            <span style="margin-left: 30%">太阳轮</span>
            <span style="margin-left: 13%">行星轮</span>
            <span style="margin-left: 10%">行星轮</span>
            <span style="margin-left: 15%">齿圈</span>
          </li>
          <li>
            <span>设计法向压力角(°)</span>
            <input type="text" style="width: 70%;" v-model="input.press_angle_2">
          </li>
          <li>
            <span>设计螺旋角(°)</span>
            <input type="text" style="width: 70%;" v-model="input.helix_angle_2">
          </li>
          <li>
            <span>设计宽径比</span>
            <label >{{output.ratio_width_diameter_s_2}}</label>
            <label style="margin-left: 7%">{{output.ratio_width_diameter_p_2}}</label>
            <label style="margin-left: 8%">{{output.ratio_width_diameter_r_2}}</label>
          </li>
          <li>
            <span>参考分度圆直径(mm)</span>
            <label >{{output.tran_de_dia_s_2}}</label>
            <label style="margin-left: 7%">{{output.tran_de_dia_p_2}}</label>
            <label style="margin-left: 8%">{{output.tran_de_dia_r_2}}</label>
          </li>
          <li>
            <span>参考中心距(mm)</span>
            <label style="margin-left: 25%">{{output.center_refer_strength_2}}</label>
          </li>
          <li>
            <span>参考齿圈最大外径(mm)</span>
            <label style="margin-left: 25%">{{output.max_dia_refer_strength_2}}</label>
          </li>
          <li>
            <span>参考法向模数(mm)</span>
            <label style="margin-left: 25%">{{ output.normal_module_refer_2 }}t</label>
          </li>
          <li>
            <span>设计法向模数(mm)</span>
            <input type="text" style="width: 70%;" v-model="input.normal_module_2">
          </li>
          <li>
            <span>参考齿数</span>
            <label >{{output.z_s_refer_2}}</label>
            <label style="margin-left: 7%">{{output.z_p_refer_2}}</label>
            <label style="margin-left: 8%">{{output.z_r_refer_2}}</label>
          </li>
          <li>
            <span>齿数调整值</span>
            <select style="width:6%;display: block;float:left;margin-left:33.5%;height: 100%" v-model="input.z_p_adjust_2">
              <option value="0">0</option>
              <option value="-2">-2</option>
              <option value="-1">-1</option>
              <option value="1">1</option>
              <option value="2">2</option>
            </select >
            <label style="width: 6%;margin-left: 18.5%;">{{ output.z_r_change_2 }}</label>
            <select style="width:6%;display: block;float:left;height: 100%" v-model="input.z_r_adjust_2">
              <option value="0">0</option>
              <option value="-6">-6</option>
              <option value="-5">-5</option>
              <option value="-4">-4</option>
              <option value="-3">-3</option>
              <option value="-2">-2</option>
              <option value="-1">-1</option>
              <option value="1">1</option>
              <option value="2">2</option>
              <option value="3">3</option>
              <option value="4">4</option>
              <option value="5">5</option>
              <option value="6">6</option>
            </select>
          </li>
          <li>
            <span>设计齿数</span>
            <input type="text" style="width: 15%;" v-model="input.z_s_2">
            <label style="margin-left: 10%">{{output.z_p_2}}</label>
            <label style="margin-left: 7%"></label>
          </li>
          <li>
            <span>设计齿数比</span>
            <label style="margin-left: 25%">{{output.ratio_design_2}}</label>
          </li>
          <li>
            <span>齿数比差值百分比</span>
            <label style="margin-left: 25%">{{output.ratio_different_2}}</label>
          </li>
          <li>
            <span>设计齿宽(mm)</span>
            <label style="margin-left: 25%">{{output.effect_width_2}}</label>
          </li>
          <li>
            <span>标准中心距(mm)</span>
            <label style="margin-left: 18%">{{output.standard_center_external_2}}</label>
            <label style="margin-left: -1.5%">{{ output.standard_center_internal_2 }}</label>
            <input v-model="input.auto_work_center_2" type="radio" name="type6" style="width: 5%;margin-left: 4.5%;" value="1">自动
          </li>
          <li>
            <span>设计中心距(mm)</span>
            <div style="float:left;height: 100%;width: 55%">
              <input v-show="input.auto_work_center_2==2" type="text" style="width: 100%" v-model="input.work_center_manual_2">
              <label v-show="input.auto_work_center_2==1"  style="width: 30%;margin-left: 47%">{{output.work_center_1_2}}</label>
            </div>
            <input v-model="input.auto_work_center_2" type="radio" name="type6" style="width: 5%" value="2">手动
          </li>
          <li>
            <span v-show="!(input.auto_work_center_2==1)">参考法向变位系数</span>
            <label style="margin-left: 0%" v-show="!(input.auto_work_center_2==1)">static text</label>
            <label style="margin-left: 7.3%" v-show="!(input.auto_work_center_2==1)">static text</label>
            <button style="width: 3%;margin-left: 13%" v-show="!(input.auto_work_center_2==1)">！</button>
          </li>
          <li>
            <span>设计法向变位系数</span>
            <input type="text" style="width: 15%;" v-model="input.normal_modi_factor_s_2">
            <label style="margin-left: 10%">{{output.normal_modi_factor_p_2}}</label>
            <label style="margin-left: 7%">{{output.normal_modi_factor_r_2}}</label>
            <button style="width: 3%" @click="showModal1" v-show="input.auto_work_center_2==1">！</button>
          </li>
          <li>
            <span>滑动率</span>
            <label >{{output.slip_s_external_2}}</label>
            <label style="margin-left: 0%">{{output.slip_p_external_2}}</label>
            <label style="width: 15%">{{output.slip_p_internal_2}}</label>
            <label style="">{{output.slip_r_internal_2}}</label>
          </li>
          <li>
            <span>法向齿顶宽系数</span>
            <label >{{output.normal_width_tip_factor_s_2}}</label>
            <label style="margin-left: 7%">{{output.normal_width_tip_factor_p_2}}</label>
            <label style="margin-left: 8%">{{output.normal_width_tip_factor_r_2}}</label>
          </li>
          <li>
            <span>轴向重合度</span>
            <label style="margin-left: 18%">{{output.axial_contact_ratio_external_2}}</label>
            <label style="margin-left: -1.5%">{{output.axial_contact_ratio_internal_2}}</label>
          </li>
          <li>
            <span>端面重合度</span>
            <label style="margin-left: 18%">{{output.tran_contact_ratio_external_2}}</label>
            <label style="margin-left: -1.5%">{{output.tran_contact_ratio_internal_2}}</label>
          </li>
          <li>
            <span>总重合度</span>
            <label style="margin-left: 18%">{{output.total_contact_ratio_external_2}}</label>
            <label style="margin-left: -1.5%">{{output.total_contact_ratio_internal_2}}</label>
          </li>
          <li>
            <span>接触疲劳强度裕度</span>
            <label >{{output.abundant_H_fatigue_s_external_2}}</label>
            <label style="margin-left: 0%">{{output.abundant_H_fatigue_p_external_2}}</label>
            <label style="width: 15%">{{output.abundant_H_fatigue_p_internal_2}}</label>
            <label style="">{{output.abundant_H_fatigue_r_internal_2}}</label>
          </li>
          <li>
            <span>弯曲疲劳强度裕度</span>
            <label >{{output.abundant_F_fatigue_s_external_2}}</label>
            <label style="margin-left: 0%">{{output.abundant_F_fatigue_p_external_2}}</label>
            <label style="width: 15%">{{output.abundant_F_fatigue_p_internal_2}}</label>
            <label style="">{{output.abundant_F_fatigue_r_internal_2}}</label>
          </li>
          <li>
            <span>接触静强度裕度</span>
            <label >{{output.abundant_H_static_s_external_2}}</label>
            <label style="margin-left: 0%">{{output.abundant_H_static_p_external_2}}</label>
            <label style="width: 15%">{{output.abundant_H_static_p_internal_2}}</label>
            <label style="">{{output.abundant_H_static_r_internal_2}}</label>
          </li>
          <li>
            <span>弯曲静强度裕度</span>
            <label >{{output.abundant_F_static_s_external_2}}</label>
            <label style="margin-left: 0%">{{output.abundant_F_static_p_external_2}}</label>
            <label style="width: 15%">{{output.abundant_F_static_p_internal_2}}</label>
            <label style="">{{output.abundant_F_static_r_internal_2}}</label>
          </li>
          <li>
            <span>行星轮间隙系数</span>
            <label style="margin-left: 25%">{{output.clearance_planet_factor_2}}</label>
          </li>
          <li>
            <span>设计齿圈最大外径(mm)</span>
            <label style="margin-left: 25%">{{output.max_dia_ring_design_2}}</label>
          </li>
          <li>
            <span>端面齿顶圆直径(mm)</span>
            <label >{{output.tran_practice_ad_dia_s_2}}</label>
            <label style="margin-left: 7%">{{output.tran_practice_ad_dia_p_2}}</label>
            <label style="margin-left: 8%">{{output.tran_practice_ad_dia_r_2}}</label>
          </li>
          <li>
            <span>端面齿根圆直径(mm)</span>
            <label >{{ output.tran_de_dia_s_2 }}</label>
            <label style="margin-left: 7%">{{output.tran_de_dia_p_2}}</label>
            <label style="margin-left: 8%">{{output.tran_de_dia_r_2}}</label>
          </li>
          <li>
            <span>轴承最大外径(mm)</span>
            <label style="margin-left: 25%">static text</label>
          </li>
          <li>
            <span>节圆线速度(m/s)</span>
            <label style="margin-left: 18%">{{ output.v_pitch_external_2 }}</label>
            <label style="margin-left: -1.5%">{{output.v_pitch_external_2}}</label>
          </li>
        </ul>
      </div>
      <div class="db-right">
        <span class="title" style="height: 2.8%">1级平行轴设计模块</span>
        <ul style="width: 100%;height: 100%">
          <li style="margin-top: 0.5%">
            <span>目标齿数比</span>
            <span style="width: 20%">static text</span>
            <span>总的传动比差值比</span>
            <span style="width: 20%">{{output.ratio_different_total}}</span>
          </li>
          <li>
            <span >设计宽径比</span>
            <input type="text" v-model="input.ratio_width_diameter_3" style="width: 20%;">
            <button style="width: 6%;height: 90%" @click="showModal7">!</button>
          </li>
          <li>

          </li>
          <li>
            <span style="margin-left: 41%">小轮</span>
            <span style="margin-left: 13%">大轮</span>

          </li>
          <li>
            <span>设计法向压力角(°)</span>
            <input type="text" style="width: 55%;" v-model="input.press_angle_3">
          </li>
          <li>
            <span>设计螺旋角(°)</span>
            <input type="text" style="width: 55%;" v-model="input.helix_angle_3">
          </li>
          <li>
            <span>设计宽径比</span>
            <label style="margin-left: 30%">{{output.ratio_width_diameter_w_3}}</label>
          </li>
          <li>
            <span>参考分度圆直径(mm)</span>
            <label style="margin-left: 6%;">{{output.diameter_refer_strength_p_3}}</label>
            <label style="margin-left: 7%">{{output.diameter_refer_strength_w_3}}</label>
          </li>
          <li>
            <span>参考中心距(mm)</span>
            <label style="margin-left: 17%">{{ output.center_refer_strength_3 }}</label>
          </li>
          <li>
            <span>参考最大外径(mm)</span>
            <label style="margin-left: 17%">{{output.max_dia_refer_strength_3}}</label>
          </li>
          <li>
            <span>参考法向模数(mm)</span>
            <label style="margin-left: 17%">{{ output.normal_module_refer_3 }}</label>
          </li>
          <li>
            <span>设计法向模数(mm)</span>
            <input type="text" style="width: 55%;" v-model="input.normal_module_3">
          </li>
          <li>
            <span>参考齿数</span>
            <label style="margin-left: 6%">{{output.z_p_refer_3}}</label>
            <label style="margin-left: 7%">{{output.z_w_refer_3}}</label>
          </li>
          <li>
            <span>齿数调整值</span>
            <select v-model="input.z_w_adjust_3" style="width:8%;display: block;float:left;margin-left:40%;height: 100%">
              <option value="0">0</option>
              <option value="-6">-6</option>
              <option value="-5">-5</option>
              <option value="-4">-4</option>
              <option value="-3">-3</option>
              <option value="-2">-2</option>
              <option value="-1">-1</option>
              <option value="1">1</option>
              <option value="2">2</option>
              <option value="3">3</option>
              <option value="4">4</option>
              <option value="5">5</option>
              <option value="6">6</option>
            </select>
          </li>
          <li>
            <span>设计齿数</span>
            <input type="text" style="width: 25%;" v-model="input.z_p_3">
            <label style="margin-left: 9%">static text</label>
          </li>
          <li>
            <span>设计齿数比</span>
            <label style="margin-left: 17%">{{ output.ratio_design_3 }}</label>
          </li>
          <li>
            <span>齿数比差值百分比</span>
            <label style="margin-left: 17%">{{ output.ratio_different_3 }}</label>
          </li>
          <li>
            <span>设计齿宽(mm)</span>
            <label style="margin-left: 17%">{{ output.effect_width_3 }}</label>
          </li>
          <li>
            <span>标准中心距(mm)</span>
            <div style="float:left;height: 100%;width: 52.5%">
              <label style="margin-left: 33%">{{ output.standard_center_3 }}</label>
            </div>
            <input v-model="input.auto_work_center_3" type="radio" name="type7" style="width: 5%;margin-left: 2.5%;" value="1">自动
          </li>
          <li>
            <span>设计中心距(mm)</span>
            <div style="float:left;height: 100%;width: 55%">
              <input v-show="input.auto_work_center_3==2" v-model="form1.work_center_3" type="text" style="width: 100%">
              <label v-show="input.auto_work_center_3==1"  style="width: 30%;margin-left: 32%">{{ output.work_center_3 }}</label>
            </div>
            <input v-model="input.auto_work_center_3" type="radio" name="type7" style="width: 5%" value="2">手动
          </li>
          <li>
            <span v-show="input.auto_work_center_3==2">参考法向变位系数</span>
            <label style="margin-left: 6%" v-show="input.auto_work_center_3==2">static text</label>
            <label style="margin-left: 7%" v-show="input.auto_work_center_3==2">static text</label>
            <button style="width: 5%;margin-left: 6.5%" v-show="input.auto_work_center_3==2">！</button>
          </li>
          <li>
            <span>设计法向变位系数</span>
            <input type="text" style="width: 25%;" v-model="input.normal_modi_factor_p_3">
            <label style="margin-left: 9%">{{ output.normal_modi_factor_w_3 }}</label>
          </li>
          <li>
            <span>滑动率</span>
            <label style="margin-left: 6%">{{output.slip_p_3}}</label>
            <label style="margin-left: 7%">{{ output.slip_w_3 }}</label>
          </li>
          <li>
            <span>法向齿顶宽系数</span>
            <label style="margin-left: 6%">{{ output.normal_width_tip_factor_p_3 }}</label>
            <label style="margin-left: 7%">{{output.normal_width_tip_factor_w_3}}</label>
          </li>
          <li>
            <span>轴向重合度</span>
            <label style="margin-left: 17%">{{output.axial_contact_ratio_3}}</label>
          </li>
          <li>
            <span>端面重合度</span>
            <label style="margin-left: 17%">{{ output.tran_contact_ratio_3 }}</label>
          </li>
          <li>
            <span>总重合度</span>
            <label style="margin-left: 17%">{{ output.total_contact_ratio_3 }}</label>
          </li>
          <li>
            <span>接触疲劳强度裕度</span>
            <label style="margin-left: 6%">{{output.abundant_H_fatigue_p_3}}</label>
            <label style="margin-left: 7%">{{output.abundant_H_fatigue_w_3}}</label>
          </li>
          <li>
            <span>弯曲疲劳强度裕度</span>
            <label style="margin-left: 6%">{{ output.abundant_F_fatigue_p_3 }}</label>
            <label style="margin-left: 7%">{{ output.abundant_F_fatigue_w_3 }}</label>
          </li>
          <li>
            <span>接触静强度裕度</span>
            <label style="margin-left: 6%">{{ output.abundant_H_static_p_3 }}</label>
            <label style="margin-left: 7%">{{output.abundant_H_static_w_3}}</label>
          </li>
          <li>
            <span>弯曲静强度裕度</span>
            <label style="margin-left: 6%">{{output.abundant_F_static_p_3}}</label>
            <label style="margin-left: 7%">{{ output.abundant_F_static_w_3 }}</label>
          </li>
          <li>
            <span>端面齿顶圆直径(mm)</span>
            <label style="margin-left: 6%">{{output.tran_practice_ad_dia_p_3}}</label>
            <label style="margin-left: 7%">{{ output.tran_practice_ad_dia_w_3 }}</label>
          </li>
          <li>
            <span>端面齿根圆直径(mm)</span>
            <label style="margin-left: 6%">{{output.tran_de_dia_p_3}}</label>
            <label style="margin-left: 7%">{{output.tran_de_dia_w_3}}</label>
          </li>
          <li>
            <span>节圆线速度(m/s)</span>
            <label style="margin-left: 17%">{{ output.v_pitch_3 }}</label>
          </li>
        </ul>
      </div>
      <button class="button1" @click="showModal" style="height: 3%;width: 10%;margin-left: 11%;margin-top: 0.5%">查看相关参数</button>
    </div>
    <a-modal class="m1" v-model="visible" title="2级行星+1级平行轴齿轮传动相关参数" @ok="handleOk" width="1380px" mask="false"  style="border:12px;overflow: hidden">
      <span style="height:420px;width: 440px;">
        <div class="title" style="height: 20px">
          第1级相关参数
        </div>
        <ul class="content1" style="height: 400px;width: 100%;">
          <li style="height: 6.5%;width: 100%;">
            <label style="margin-left: 180px">外啮合</label>
            <label style="margin-left: 120px">内啮合</label>
          </li>
          <li>
            <label style="margin-left: 140px">太阳轮</label>
            <label style="margin-left: 40px">行星轮</label>
            <label style="margin-left: 45px">行星轮</label>
            <label style="margin-left: 45px">齿圈</label>
          </li>
          <li>
            <label style="width: 120px;">
              计算接触应力(MPa)
            </label>
            <label style="width:80px;text-align: center">{{output.sigma_H_fatigue_design_s_1_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_H_fatigue_design_p_external_1_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_H_fatigue_design_p_internal_1_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_H_fatigue_design_r_1_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              许用接触应力(MPa)
            </label>
            <label style="width:80px;text-align: center">{{output.sigma_HG_s_1_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_HG_external_1_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_HG_p_internal_1_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_HG_r_1_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              计算弯曲应力(MPa)
            </label>
            <label style="width:80px;text-align: center">{{output.sigma_F_fatigue_design_s_1_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_F_fatigue_design_p_external_1_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_F_fatigue_design_p_internal_1_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_F_fatigue_design_r_1_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              许用弯曲应力(MPa)
            </label>
            <label style="width:80px;text-align: center;overflow: hidden">{{output.sigma_FG_s_1_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_FG_external_1_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_FG_p_internal_1_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_FG_r_1_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              节圆直径(mm)
            </label>
            <label style="width:80px;text-align: center">{{output.tran_pitch_s_1_x3}}</label>
            <label style="width:80px;text-align: center">{{output.tran_pitch_p_external_1_x3}}</label>
            <label style="width:80px;text-align: center">{{output.tran_pitch_p_internal_1_x3}}</label>
            <label style="width:80px;text-align: center">{{output.tran_pitch_r_1_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              基圆直径(mm)
            </label>
            <label style="width:80px;text-align: center">{{output.tran_base_dia_s_1_x3}}</label>
            <label style="width:80px;text-align: center">{{output.tran_base_dia_p_external_1_x3}}</label>
            <label style="width:80px;text-align: center">{{output.tran_base_dia_p_internal_1_x3}}</label>
            <label style="width:80px;text-align: center">{{output.tran_base_dia_r_1_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              啮合角(°)
            </label>
            <label style="width:80px;margin-left: 30px;text-align: center">{{output.mesh_angle_external_1_x3}}</label>
            <label style="width:80px;margin-left: 90px;text-align: center">{{output.mesh_angle_internal_1_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              基圆螺旋角(°)
            </label>
            <label style="width:80px;margin-left: 30px;text-align: center">{{output.base_helix_angle_external_1_x3}}</label>
            <label style="width:80px;margin-left: 90px;text-align: center">{{output.base_helix_angle_internal_1_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              相对转速(rpm)
            </label>
            <label style="width:80px;margin-left: 20px;text-align: center">{{output.n_s_1_rel}}</label>
            <label style="width:80px;margin-left: 15px;text-align: center">{{output.n_p_1_rel}}</label>
            <label style="width:80px;margin-left:20px;text-align: center">{{output.n_r_1_rel}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              绝对转速(rpm)
            </label>
            <label style="width:70px;margin-left: 20px;text-align: center">{{output.n_s_1_abs}}</label>
            <label style="width:80px;margin-left: 15px;text-align: center">{{output.n_p_1_abs}}</label>
            <label style="width:80px;margin-left:20px;text-align: center">{{output.n_r_1_abs}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              行星架转速(rpm)
            </label>
            <label style="width: 80px;margin-left: 105px;text-align: center">{{output.n_carrier_1_abs}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              切向载荷(N)
            </label>
            <label style="width:80px;margin-left: 30px;text-align: center">{{output.tangential_load_external_1_0}}</label>
            <label style="width:80px;margin-left: 90px;text-align: center">{{output.tangential_load_internal_1_0}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              径向载荷(N)
            </label>
            <label style="width:80px;margin-left: 30px;text-align: center">{{output.radial_load_external_1_0}}</label>
            <label style="width:80px;margin-left: 90px;text-align: center">{{output.radial_load_internal_1_0}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              轴向载荷(N)
            </label>
            <label style="width:80px;margin-left: 30px;text-align: center">{{output.axial_load_external_1_0}}</label>
            <label style="width:80px;margin-left: 90px;text-align: center">{{output.axial_load_internal_1_0}}</label>
          </li>
        </ul>
      </span>
      <span style="height:420px;width: 440px;">
        <div class="title" style="height: 20px">
          第2级相关参数
        </div>
        <ul class="content1" style="height: 400px;width: 100%;">
          <li style="height: 6.5%;width: 100%;">
            <label style="margin-left: 180px">外啮合</label>
            <label style="margin-left: 120px">内啮合</label>
          </li>
          <li>
            <label style="margin-left: 140px">太阳轮</label>
            <label style="margin-left: 40px">行星轮</label>
            <label style="margin-left: 45px">行星轮</label>
            <label style="margin-left: 45px">齿圈</label>
          </li>
          <li>
            <label style="width: 120px;">
              计算接触应力(MPa)
            </label>
            <label style="width:80px;text-align: center">{{output.sigma_H_fatigue_design_s_2_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_H_fatigue_design_p_external_2_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_H_fatigue_design_p_internal_2_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_H_fatigue_design_r_2_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              许用接触应力(MPa)
            </label>
            <label style="width:80px;text-align: center">{{output.sigma_HG_s_2_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_HG_external_2_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_HG_p_internal_2_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_HG_r_2_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              计算弯曲应力(MPa)
            </label>
            <label style="width:80px;text-align: center">{{output.sigma_F_fatigue_design_s_2_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_F_fatigue_design_p_external_2_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_F_fatigue_design_p_internal_2_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_F_fatigue_design_r_2_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              许用弯曲应力(MPa)
            </label>
            <label style="width:80px;text-align: center">{{output.sigma_FG_s_2_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_FG_external_2_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_FG_p_internal_2_x3}}</label>
            <label style="width:80px;text-align: center">{{output.sigma_FG_r_2_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              节圆直径(mm)
            </label>
            <label style="width:80px;text-align: center">{{output.tran_pitch_s_2_x3}}</label>
            <label style="width:80px;text-align: center">{{output.tran_pitch_p_external_2_x3}}</label>
            <label style="width:80px;text-align: center">{{output.tran_pitch_p_internal_2_x3}}</label>
            <label style="width:80px;text-align: center">{{output.tran_pitch_r_2_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              基圆直径(mm)
            </label>
            <label style="width:80px;text-align: center">{{output.tran_base_dia_s_2_x3}}</label>
            <label style="width:80px;text-align: center">{{output.tran_base_dia_p_external_2_x3}}</label>
            <label style="width:80px;text-align: center">{{output.tran_base_dia_p_internal_2_x3}}</label>
            <label style="width:80px;text-align: center">{{output.tran_base_dia_r_2_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              啮合角(°)
            </label>
            <label style="width:80px;margin-left: 30px;text-align: center">{{output.mesh_angle_external_2_x3}}</label>
            <label style="width:80px;margin-left: 90px;text-align: center">{{output.mesh_angle_internal_2_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              基圆螺旋角(°)
            </label>
            <label style="width:80px;margin-left: 30px;text-align: center">{{output.base_helix_angle_external_2_x3}}</label>
            <label style="width:80px;margin-left: 90px;text-align: center">{{output.base_helix_angle_internal_2_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              相对转速(rpm)
            </label>
            <label style="width:80px;margin-left: 20px;text-align: center">{{output.n_s_2_rel}}</label>
            <label style="width:80px;margin-left: 15px;text-align: center">{{output.n_p_2_rel}}</label>
            <label style="width:80px;margin-left:20px;text-align: center">{{output.n_r_2_rel}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              绝对转速(rpm)
            </label>
            <label style="width:80px;margin-left: 20px;text-align: center">{{output.n_s_2_abs}}</label>
            <label style="width:80px;margin-left: 15px;text-align: center">{{output.n_p_2_abs}}</label>
            <label style="width:80px;margin-left:20px;text-align: center">{{output.n_r_2_abs}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              行星架转速(rpm)
            </label>
            <label style="width: 80px;margin-left: 105px;text-align: center">{{output.n_carrier_2_abs}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              切向载荷(N)
            </label>
            <label style="width:80px;margin-left: 30px;text-align: center">{{output.tangential_load_external_2_0}}</label>
            <label style="width:80px;margin-left: 90px;text-align: center">{{output.tangential_load_internal_2_0}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              径向载荷(N)
            </label>
            <label style="width:80px;margin-left: 30px;text-align: center">{{output.radial_load_external_2_0}}</label>
            <label style="width:80px;margin-left: 90px;text-align: center">{{output.radial_load_internal_2_0}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              轴向载荷(N)
            </label>
            <label style="width:80px;margin-left: 30px;text-align: center">{{output.axial_load_external_2_0}}</label>
            <label style="width:80px;margin-left: 90px;text-align: center">{{output.axial_load_internal_2_0}}</label>
          </li>
        </ul>
      </span>
      <span style="height:420px;width: 440px;">
        <div class="title" style="height: 20px">
          平行轴相关参数
        </div>
        <ul class="content1" style="height: 400px;width: 100%;">
          <li style="height: 51px;width: 100%;">
            <label style="margin-left: 180px;line-height: 3">小轮</label>
            <label style="margin-left: 120px;line-height: 3">大轮</label>
          </li>
          <li>
            <label style="width: 120px;">
              计算接触应力(MPa)
            </label>
            <label style="width:80px;margin-left: 30px;text-align: center">{{output.sigma_H_fatigue_design_p_3_x3}}</label>
            <label style="width:80px;margin-left: 90px;text-align: center">{{output.sigma_H_fatigue_design_w_3_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              许用接触应力(MPa)
            </label>
            <label style="width:80px;margin-left: 30px;text-align: center">{{output.sigma_HG_p_3_x3}}</label>
            <label style="width:80px;margin-left: 90px;text-align: center">{{output.sigma_HG_w_3_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              计算弯曲应力(MPa)
            </label>
            <label style="width:80px;margin-left: 30px;text-align: center">{{output.sigma_F_fatigue_design_p_3_x3}}</label>
            <label style="width:80px;margin-left: 90px;text-align: center">{{output.sigma_F_fatigue_design_w_3_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              许用弯曲应力(MPa)
            </label>
            <label style="width:80px;margin-left: 30px;text-align: center">{{output.sigma_FG_p_3_x3}}</label>
            <label style="width:80px;margin-left: 90px;text-align: center">{{output.sigma_FG_w_3_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              节圆直径(mm)
            </label>
            <label style="width:80px;margin-left: 30px;text-align: center">{{output.tran_pitch_p_3_x3}}</label>
            <label style="width:80px;margin-left: 90px;text-align: center">{{output.tran_pitch_w_3_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              基圆直径(mm)
            </label>
            <label style="width:80px;margin-left: 30px;text-align: center">{{output.tran_base_dia_p_3_x3}}</label>
            <label style="width:80px;margin-left: 90px;text-align: center">{{output.tran_base_dia_w_3_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              啮合角(°)
            </label>
            <label style="width:80px;margin-left: 100px;text-align: center">{{output.mesh_angle_3_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              基圆螺旋角(°)
            </label>
            <label style="width:80px;margin-left: 100px;text-align: center">{{output.base_helix_angle_3_x3}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              转速(rpm)
            </label>
            <label style="width:80px;margin-left: 30px;text-align: center">{{output.n_p_3_x3}}</label>
            <label style="width:80px;margin-left: 90px;text-align: center">{{output.n_w_3_x3}}</label>
          </li>

          <li>
            <label style="width: 120px;">
              切向载荷(N)
            </label>
            <label style="width:80px;margin-left: 100px;text-align: center">{{output.tangential_load_3_0}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              径向载荷(N)
            </label>
            <label style="width:80px;margin-left: 100px;text-align: center">{{output.radial_load_3_0}}</label>
          </li>
          <li>
            <label style="width: 120px;">
              轴向载荷(N)
            </label>
            <label style="width:80px;margin-left: 100px;text-align: center">{{output.axial_load_3_0}}</label>
          </li>
        </ul>
      </span>
    </a-modal>
    <a-modal v-model="visible1" width="800px" title="提示" @ok="handleOk1">
      <p>按照国内齿轮行业惯例，中心距变大时内齿轮的变位系数成正，反之为负，但国际上内齿轮变位系数的符号规定与之相反，所以标注时请引起注意！本成熟使用国内惯例</p>
    </a-modal>
    <a-modal v-model="visible2" width="800px" title="提示" @ok="handleOk2">
      <img src="@/assets/image/image_77_1.png" style="width: 100%;" alt="">
    </a-modal>
    <a-modal v-model="visible3" width="800px" title="提示" @ok="handleOk3">
      <img src="@/assets/image/image_77_2.png" style="width: 100%;" alt="">
    </a-modal>
    <a-modal v-model="visible4" width="800px" title="使用系数参考表" @ok="handleOk4">
      <img src="@/assets/image/image_77_3.png" style="width: 100%;" alt="">
    </a-modal>
    <a-modal v-model="visible5" width="800px" title="动载系数参考表" @ok="handleOk5">
      <img src="@/assets/image/image_77_4.png" style="width: 100%;" alt="">
    </a-modal>
    <a-modal v-model="visible6" width="800px" title="齿间载荷分布系数参考表" @ok="handleOk6">
      <img src="@/assets/image/image_77_6.png" style="width: 100%;" alt="">
    </a-modal>
    <a-modal v-model="visible7" width="800px" title="圆柱齿轮的宽径比参考表" @ok="handleOk7">
      <img src="@/assets/image/image_77_5.png" style="width: 100%;" alt="">
    </a-modal>
  </div>
</template>
<script>


import {filetext, firedelete, nametwo_planet_add_one_parallel_design_check} from "@/api/file";

export default {
  name: "nametwo_planet_add_one_parallel_design_check",
  created()
  {
    document.title = "两级NGW型行星+一级平行轴齿轮传动宏观参数设计及优化"
  },
  data() {
    return {
      form2:{
        uuids:[]
      },
      items:[[]],
      visible:false,
      visible1:false,
      visible2:false,
      visible3:false,
      visible4:false,
      visible5:false,
      visible6:false,
      visible7:false,
      AisSelectActive:true,
      BisSelectActive:false,
      Acanshow:true,
      Bcanshow:false,
      input:{
        work_center_manual_1:396.016,  //第1级设计中心距（mm）
        work_center_manual_2:290.163,  //第2级设计中心距（mm）
        uuid:1,  //行星架输入载荷谱
        z_p_adjust_1:0,  //第1级行星轮齿数调整值
        z_r_adjust_1:0,  //第1级齿圈齿数调整值
        z_p_adjust_2:0,  //第2级行星轮齿数调整值
        z_r_adjust_2:0,  //第2级齿圈齿数调整值
        torque_static_input:100,  //行星架静强度输入扭矩 (Nmm)
        n_input:18.23,  //行星架输入转速 (rpm)
        whether_rate_load:1,  //设计载荷输入形式（下拉选项）1-额定工况；2-载荷谱
        whether_torque:1,  //行星架输入形式（下拉选项）1-输入扭矩；2-输入功率
        ratio_aim_1:3.457,  //第1级目标齿数比
        ratio_aim_2:4.76,  //第2级目标齿数比
        planet_number_1:4,  //第1级行星轮个数
        z_s_1:35,  //第1级太阳轮设计齿数
        load_share_factor_1:1.25,  //第1级不均载系数
        possion_s_1:0.3,  //第1级太阳轮泊松比
        possion_p_1:0.3,  //第1级行星轮泊松比
        possion_r_1:0.3,  //第1级齿圈泊松比
        E_s_1:206000,  //第1级太阳轮弹性模量 (MPa)
        E_p_1:206000,  //第1级行星轮弹性模量 (MPa)
        E_r_1:206000,  //第1级齿圈弹性模量 (MPa)
        K_A_external_1:1,  //第1级外啮合使用系数
        K_A_internal_1:1,  //第1级内啮合使用系数
        K_A_external_s_1:1,  //第1级外啮合静强度使用系数
        K_A_internal_s_1:1,  //第1级内啮静强度合使用系数
        K_V_external_1:1.1,  //第1级外啮合动载系数
        K_V_internal_1:1.1,  //第1级内啮合动载系数
        K_Hb_external_1:1.3,  //第1级外啮合接触齿向载荷分布系数
        K_Hb_internal_1:1.3,  //第1级内啮合接触齿向载荷分布系数
        K_Ha_external_1:1.05,  //第1级外啮合接触齿间载荷分布系数
        K_Ha_internal_1:1.05,  //第1级内啮合接触齿间载荷分布系数
        K_Fb_external_1:1.3,  //第1级外啮合弯曲齿向载荷分布系数
        K_Fb_internal_1:1.3,  //第1级内啮合弯曲齿向载荷分布系数
        K_Fa_external_1:1.05,  //第1级外啮合弯曲齿间载荷分布系数
        K_Fa_internal_1:1.05,  //第1级内啮合弯曲齿间载荷分布系
        S_H_fatigue:1.25,  //接触疲劳强度安全系数
        S_H_static:1,  //接触静强度安全系数
        S_F_fatigue:1.56,  //弯曲疲劳强度安全系数
        S_F_static:1.4,  //弯曲静强度安全系数
        Znt_Longlife:0.85,  //接触长寿命系数
        Ynt_Longlife:0.85,  //弯曲长寿命系数
        material_type_s_1:1,  //第1级太阳轮材料类型（下拉选项）1- 渗碳淬火；2-调质；3-渗氮钢；4-结构钢；5-感应淬火和火焰淬火钢；6-氮碳共渗钢
        material_type_p_1:1,  //第1级行星轮材料类型（下拉选项）1- 渗碳淬火；2-调质；3-渗氮钢；4-结构钢；5-感应淬火和火焰淬火钢；6-氮碳共渗钢
        material_type_r_1:1,  //第1级齿圈材料类型（下拉选项）1- 渗碳淬火；2-调质；3-渗氮钢；4-结构钢；5-感应淬火和火焰淬火钢；6-氮碳共渗钢
        switch_pitting:2,  //允许点蚀（下拉选项）1-是；2否
        consider_Nc:2,  //转折点循环次数设计（下拉选项）1-是；2否
        consider_Long:2,  //无限点循环次数设计（下拉选项）1-是；2否
        normal_module_1:10,  //第1级设计法向模数 (mm)
        helix_angle_1:10,  //第1级设计螺旋角 (°)
        normal_modi_factor_s_1:0,  //第1级太阳轮设计法向变位系数
        press_angle_1:20,  //第1级设计法向压力角 (°)
        ad_factor_s_1:1,  //第1级太阳轮齿顶高系数
        ad_factor_p_1:1,  //第1级行星轮齿顶高系数
        ad_factor_r_1:1,  //第1级齿圈齿顶高系数
        tip_factor_s_1:0.4,  //第1级太阳轮顶隙系数
        tip_factor_p_1:0.4,  //第1级行星轮顶隙系数
        tip_factor_r_1:0.4,  //第1级齿圈顶隙系数
        chamfer_dia_s_1:0,  //第1级太阳轮齿向倒角高度 (直径)(mm)
        chamfer_dia_p_1:0,  //第1级行星轮齿向倒角高度 (直径)(mm)
        chamfer_dia_r_1:0,  //第1级齿圈齿向倒角高度 (直径)(mm)
        chamfer_angle_s_1:45,  //第1级太阳轮齿向倒角角度 (°)
        chamfer_angle_p_1:45,  //第1级行星轮齿向倒角角度 (°)
        chamfer_angle_r_1:45,  //第1级齿圈齿向倒角角度 (°)
        ad_cut_dia_s_1:0,  //第1级太阳轮齿顶削减量 (直径)(mm)
        ad_cut_dia_p_1:0,  //第1级行星轮齿顶削减量 (直径)(mm)
        ad_cut_dia_r_1:0,  //第1级齿圈齿顶削减量 (直径)(mm)
        ratio_width_diameter_max_1:1.015,  //第1级最大设计宽径比
        auto_work_center_1:1,  //第1级是否手动输入设计中心距1-自动；2-手动
        v_40:320,  //润滑油40℃粘度 (mm^2/s)
        oil_type:1,  //润滑油类型（下拉选项）1-矿物油；2-合成油
        R_z_flank_s_1:4.8,  //第1级太阳轮齿面粗糙度 Rz (um)
        R_z_flank_p_1:4.8,  //第1级行星轮齿面粗糙度 Rz (um)
        R_z_flank_r_1:4.8,  //第1级齿圈齿面粗糙度 Rz (um)
        hardness_HB_s_1:621.3,  //第1级太阳轮齿面硬度 (HB)
        hardness_HB_p_1:621.3,  //第1级行星轮齿面硬度 (HB)
        hardness_HB_r_1:621.3,  //第1级齿圈齿面硬度 (HB)
        sigma_Hlim_s_1:1500,  //第1级太阳轮接触疲劳极限应力 (MPa)
        sigma_Hlim_p_1:1500,  //第1级行星轮接触疲劳极限应力 (MPa)
        sigma_Hlim_r_1:1500,  //第1级齿圈接触疲劳极限应力 (MPa)
        radius_factor_s_1:0.3,  //第1级太阳轮齿根圆角半径系数
        radius_factor_p_1:0.3,  //第1级行星轮齿根圆角半径系数
        undercut_s_1:0,  //第1级太阳轮挖根量 (mm)
        undercut_p_1:0,  //第1级行星轮挖根量 (mm)
        undercut_r_1:0,  //第1级齿圈挖根量 (mm)
        R_z_root_s_1:19.2,  //第1级太阳轮齿根圆角粗糙度 Rz (um)
        R_z_root_p_1:19.2,  //第1级行星轮齿根圆角粗糙度 Rz (um)
        R_z_root_r_1:19.2,  //第1级齿圈齿根圆角粗糙度 Rz (um)
        sigma_s_s_1:785,  //第1级太阳轮屈服应力 (MPa)
        sigma_s_p_1:785,  //第1级行星轮屈服应力 (MPa)
        sigma_s_r_1:785,  //第1级齿圈屈服应力 (MPa)
        sigma_Flim_s_1:1000,  //第1级太阳轮弯曲疲劳极限应力 (MPa)
        sigma_Flim_p_1:1000,  //第1级行星轮弯曲疲劳极限应力 (MPa)
        sigma_Flim_r_1:1000,  //第1级齿圈弯曲疲劳极限应力 (MPa)
        whether_single_rotation:1,  //运行工况（下拉选项）1-单向运转；2-双向运转
        SR_s_1:3.5,  //第1级太阳轮轮缘厚度系数
        SR_p_1:3.5,  //第1级行星轮轮缘厚度系数
        SR_r_1:3.5,  //第1级齿圈轮缘厚度系数
        abundant_ring_rim_factor_1:5,  //第1级齿圈预留法向轮缘系数
        ratio_aim_total:97.076,  //总传动比
        planet_number_2:3,  //第2级行星轮个数
        z_s_2:25,  //第2级太阳轮设计齿数
        load_share_factor_2:1,  //第2级不均载系数
        possion_s_2:0.3,  //第2级太阳轮泊松比
        possion_p_2:0.3,  //第2级行星轮泊松比
        possion_r_2:0.3,  //第2级齿圈泊松比
        E_s_2:206000,  //第2级太阳轮弹性模量 (MPa)
        E_p_2:206000,  //第2级行星轮弹性模量 (MPa)
        E_r_2:206000,  //第2级齿圈弹性模量 (MPa)
        K_A_external_2:1,  //第2级外啮合使用系数
        K_A_internal_2:1,  //第2级内啮合使用系数
        K_A_external_s_2:1,  //第2级外啮合静强度使用系数
        K_A_internal_s_2:1,  //第2级内啮合静强度使用系数
        K_V_external_2:1.1,  //第2级外啮合动载系数
        K_V_internal_2:1.1,  //第2级内啮合动载系数
        K_Hb_external_2:1.3,  //第2级外啮合接触齿向载荷分布系数
        K_Hb_internal_2:1.3,  //第2级内啮合接触齿向载荷分布系数
        K_Ha_external_2:1.05,  //第2级外啮合接触齿间载荷分布系数
        K_Ha_internal_2:1.05,  //第2级内啮合接触齿间载荷分布系数
        K_Fb_external_2:1.3,  //第2级外啮合弯曲齿向载荷分布系数
        K_Fb_internal_2:1.3,  //第2级内啮合弯曲齿向载荷分布系数
        K_Fa_external_2:1.05,  //第2级外啮合弯曲齿间载荷分布系
        K_Fa_internal_2:1.05,  //第2级内啮合弯曲齿间载荷分布系
        material_type_s_2:1,  //第2级太阳轮材料类型（下拉选项）1- 渗碳淬火；2-调质；3-渗氮钢；4-结构钢；5-感应淬火和火焰淬火钢；6-氮碳共渗钢
        material_type_p_2:1,  //第2级行星轮材料类型（下拉选项）1- 渗碳淬火；2-调质；3-渗氮钢；4-结构钢；5-感应淬火和火焰淬火钢；6-氮碳共渗钢
        material_type_r_2:1,  //第2级齿圈材料类型（下拉选项）1- 渗碳淬火；2-调质；3-渗氮钢；4-结构钢；5-感应淬火和火焰淬火钢；6-氮碳共渗钢
        normal_module_2:8,  //第2级设计法向模数 (mm)
        helix_angle_2:7,  //第2级设计螺旋角 (°)
        normal_modi_factor_s_2:0,  //第2级太阳轮设计法向变位系数
        press_angle_2:20,  //第2级设计法向压力角 (°)
        ad_factor_s_2:1,  //第2级太阳轮齿顶高系数
        ad_factor_p_2:1,  //第2级行星轮齿顶高系数
        ad_factor_r_2:1,  //第2级齿圈齿顶高系数
        tip_factor_s_2:0.4,  //第2级太阳轮顶隙系数
        tip_factor_p_2:0.4,  //第2级行星轮顶隙系数
        tip_factor_r_2:0.4,  //第2级齿圈顶隙系数
        chamfer_dia_s_2:0,  //第2级太阳轮齿向倒角高度 (直径)(mm)
        chamfer_dia_p_2:0,  //第2级行星轮齿向倒角高度 (直径)(mm)
        chamfer_dia_r_2:0,  //第2级齿圈齿向倒角高度 (直径)(mm)
        chamfer_angle_s_2:45,  //第2级太阳轮齿向倒角角度 (°)
        chamfer_angle_p_2:45,  //第2级行星轮齿向倒角角度 (°)
        chamfer_angle_r_2:45,  //第2级齿圈齿向倒角角度 (°)
        ad_cut_dia_s_2:0,  //第2级太阳轮齿顶削减量 (直径)(mm)
        ad_cut_dia_p_2:0,  //第2级行星轮齿顶削减量 (直径)(mm)
        ad_cut_dia_r_2:0,  //第2级齿圈齿顶削减量 (直径)(mm)
        ratio_width_diameter_max_2:1.015,  //第2级最大设计宽径比
        auto_work_center_2:1,  //第2级是否手动输入设计中心距1-自动；2-手动
        R_z_flank_s_2:4.8,  //第2级太阳轮齿面粗糙度 Rz (um)
        R_z_flank_p_2:4.8,  //第2级行星轮齿面粗糙度 Rz (um)
        R_z_flank_r_2:4.8,  //第2级齿圈齿面粗糙度 Rz (um)
        hardness_HB_s_2:621.3,  //第2级太阳轮齿面硬度 (HB)
        hardness_HB_p_2:621.3,  //第2级行星轮齿面硬度 (HB)
        hardness_HB_r_2:621.3,  //第2级齿圈齿面硬度 (HB)
        sigma_Hlim_s_2:1500,  //第2级太阳轮接触疲劳极限应力 (MPa)
        sigma_Hlim_p_2:1500,  //第2级行星轮接触疲劳极限应力 (MPa)
        sigma_Hlim_r_2:1500,  //第2级齿圈接触疲劳极限应力 (MPa)
        radius_factor_s_2:0.3,  //第2级太阳轮齿根圆角半径系数
        radius_factor_p_2:0.3,  //第2级行星轮齿根圆角半径系数
        undercut_s_2:0,  //第2级太阳轮挖根量 (mm)
        undercut_p_2:0,  //第2级行星轮挖根量 (mm)
        undercut_r_2:0,  //第2级齿圈挖根量 (mm)
        R_z_root_s_2:19.2,  //第2级太阳轮齿根圆角粗糙度 Rz (um)
        R_z_root_p_2:19.2,  //第2级行星轮齿根圆角粗糙度 Rz (um)
        R_z_root_r_2:19.2,  //第2级齿圈齿根圆角粗糙度 Rz (um)
        sigma_s_s_2:785,  //第2级太阳轮屈服应力 (MPa)
        sigma_s_p_2:785,  //第2级行星轮屈服应力 (MPa)
        sigma_s_r_2:785,  //第2级齿圈屈服应力 (MPa)
        sigma_Flim_s_2:1000,  //第2级太阳轮弯曲疲劳极限应力 (MPa)
        sigma_Flim_p_2:1000,  //第2级行星轮弯曲疲劳极限应力 (MPa)
        sigma_Flim_r_2:1000,  //第2级齿圈弯曲疲劳极限应力 (MPa)
        SR_s_2:3.5,  //第2级太阳轮轮缘厚度系数
        SR_p_2:3.5,  //第2级行星轮轮缘厚度系数
        SR_r_2:3.5,  //第2级齿圈轮缘厚度系数
        abundant_ring_rim_factor_2:5,  //第2级齿圈预留法向轮缘系数
        z_p_3:32,  //平行轴小轮设计齿数
        z_w_adjust_3:0,  //平行轴大轮齿数调整值
        normal_module_3:5,  //平行轴设计法向模数 (mm)
        helix_angle_3:11.5,  //平行轴设计螺旋角 (°)
        normal_modi_factor_p_3:0,  //平行轴小轮设计法向变位系数
        press_angle_3:20,  //平行轴设计法向压力角 (°)
        ad_factor_p_3:1,  //平行轴小轮齿顶高系数
        ad_factor_w_3:1,  //平行轴大轮齿顶高系数
        tip_factor_p_3:0.4,  //平行轴小轮顶隙系数
        tip_factor_w_3:0.4,  //平行轴大轮顶隙系数
        radius_factor_p_3:0.3,  //平行轴小轮齿根圆角半径系数
        radius_factor_w_3:0.3,  //平行轴大轮齿根圆角半径系数
        chamfer_dia_p_3:0,  //平行轴小轮齿向倒角高度 (直径)(mm)
        chamfer_dia_w_3:0,  //平行轴大轮齿向倒角高度 (直径)(mm)
        chamfer_angle_p_3:45,  //平行轴小轮齿向倒角角度 (°)
        chamfer_angle_w_3:45,  //平行轴大轮齿向倒角角度 (°)
        undercut_p_3:0,  //平行轴小轮挖根量 (mm)
        undercut_w_3:0,  //平行轴大轮挖根量 (mm)
        ad_cut_dia_p_3:0,  //平行轴小轮齿顶削减量 (直径)(mm)
        ad_cut_dia_w_3:0,  //平行轴大轮齿顶削减量 (直径)(mm)
        auto_work_center_3:1,  //平行轴是否手动输入设计中心距1-自动；2-手动
        material_type_p_3:1,  //平行轴小轮材料类型（下拉选项）1- 渗碳淬火；2-调质；3-渗氮钢；4-结构钢；5-感应淬火和火焰淬火钢；6-氮碳共渗钢
        material_type_w_3:1,  //平行轴大轮材料类型（下拉选项）1- 渗碳淬火；2-调质；3-渗氮钢；4-结构钢；5-感应淬火和火焰淬火钢；6-氮碳共渗钢
        sigma_Hlim_p_3:1500,  //平行轴小轮接触疲劳极限应力 (MPa)
        sigma_Hlim_w_3:1500,  //平行轴大轮接触疲劳极限应力 (MPa)
        sigma_Flim_p_3:1000,  //平行轴小轮弯曲疲劳极限应力 (MPa)
        sigma_Flim_w_3:1000,  //平行轴大轮弯曲疲劳极限应力 (MPa)
        sigma_s_p_3:785,  //平行轴小轮屈服应力 (MPa)
        sigma_s_w_3:785,  //平行轴大轮屈服应力 (MPa)
        possion_p_3:0.3,  //平行轴小轮泊松比
        possion_w_3:0.3,  //平行轴大轮泊松比
        E_p_3:206000,  //平行轴小轮弹性模量 (MPa)
        E_w_3:206000,  //平行轴大轮弹性模量 (MPa)
        K_A_3:1,  //平行轴使用系数
        K_A_s_3:1,  //平行轴静强度使用系数
        K_V_3:1.1,  //平行轴动载系数
        K_Hb_3:1.3,  //平行轴接触齿向载荷分布系数
        K_Ha_3:1.05,  //平行轴接触齿间载荷分布系数
        K_Fb_3:1.3,  //平行轴弯曲齿向载荷分布系数
        K_Fa_3:1.05,  //平行轴弯曲齿间载荷分布系数
        ratio_width_diameter_3:1.015,  //平行轴设计宽径比
        R_z_flank_p_3:4.8,  //平行轴小轮齿面粗糙度 Rz (um)
        R_z_flank_w_3:4.8,  //平行轴大轮齿面粗糙度 Rz (um)
        hardness_HB_p_3:621.3,  //平行轴小轮齿面硬度 (HB)
        hardness_HB_w_3:621.3,  //平行轴大轮齿面硬度 (HB)
        R_z_root_p_3:19.2,  //平行轴小轮齿根圆角粗糙度 Rz (um)
        R_z_root_w_3:19.2,  //平行轴大轮齿根圆角粗糙度 Rz (um)
        shuzu_gai_sn:"3.5,3.5,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,1,1,1,1,1,1,1,1016740000,1016740000,175200,0.2,0.2,1,1,0,0,39,39,2,397",
      },
      form1:{
        SR_p_3:3.5,      //平行轴小轮轮缘厚度系数
        SR_w_3:3.5,      //平行轴大轮轮缘厚度系数
        thickness_reduction_s_1:0,   //第1级太阳轮齿厚上偏差 (um)
        tooth_thickness_tolerance_s_1:0,  //-第1级太阳轮齿厚公差 (um)
        thickness_reduction_p_1:0,   //行星轮
        tooth_thickness_tolerance_p_1:0,
        thickness_reduction_r_1:0,
        tooth_thickness_tolerance_r_1:0,
        thickness_reduction_s_2:0,   //第2级太阳轮齿厚上偏差 (um)
        tooth_thickness_tolerance_s_2:0,  //第2级太阳轮齿厚公差 (um)
        thickness_reduction_p_2:0,
        tooth_thickness_tolerance_p_2:0,
        thickness_reduction_r_2:0,
        tooth_thickness_tolerance_r_2:0,
        thickness_reduction_p_3:0,   //平行轴小轮齿厚上偏差 (um)
        tooth_thickness_tolerance_p_3:0,
        thickness_reduction_w_3:0,
        tooth_thickness_tolerance_w_3:0,
        bend_strength_thickness_s_1:1,  //第1级太阳轮弯曲强度计算齿厚值 (um)
        bend_strength_thickness_p_1:1,
        bend_strength_thickness_r_1:1,
        bend_strength_thickness_s_2:1,  //第2级太阳轮弯曲强度计算齿厚值 (um)
        bend_strength_thickness_p_2:1,
        bend_strength_thickness_r_2:1,
        bend_strength_thickness_p_3:1,   //平行轴小轮弯曲强度计算齿厚值 (um)
        bend_strength_thickness_w_3:1,
        spectrum_torque_carrier_s_1:1016740000,    //行星架输入扭矩 (Nmm)
        power_rate_carrier_s_1:1016740000,         //行星架输入功率
        spectrum_time_carrier_s_1:175200,      //（原先控制台输入的）设计寿命 (hr)
        radius_factor_r_1:0.2,             //第1级齿圈齿根圆角半径系数
        radius_factor_r_2:0.2,              //第2级齿圈齿根圆角半径系数
        auto_cutter_1:1,                 //是否手动输入第1级加工齿圈刀具变位系数/加工齿圈刀具齿数
        auto_cutter_2:1,
        cutter_shift_coefficient_1:0,      //第1级加工齿圈刀具变位系数
        cutter_shift_coefficient_2:0,
        z_cutter_1:39,            //第1级加工齿圈刀具齿数
        z_cutter_2:39,
        pp6:2,        //行星架输入形式(Nmm)下拉选项1-输入扭矩，2-输入功率。
        work_center_3:397,
      },
      output:{
        thickness_reduction_last_s_1:"static",   //第1级太阳轮弯曲强度计算齿厚值 (um)
        thickness_reduction_last_p_1:"static",
        thickness_reduction_last_r_1:"static",
        thickness_reduction_last_s_2:"static",
        thickness_reduction_last_p_2:"static",
        thickness_reduction_last_r_2:"static",
        thickness_reduction_last_p_3:"static",
        thickness_reduction_last_w_3:"static",
        ratio_design_3:"static text",             //平行轴设计齿数比
        work_center_3:"static text",              //平行轴设计中心距 (mm)
        ratio_different_3:"static text",        //平行轴齿数比差值百分比
        max_dia_refer_strength_3:"static text",     //平行轴参考最大外径值 (mm)
        z_p_refer_3:"static text",             //平行轴小轮参考齿数
        z_w_refer_3:"static text",             //平行轴大轮参考齿数
        ratio_width_diameter_w_3:"static text",      //平行轴大轮设计宽径比
        normal_module_refer_3:"static text",        //平行轴参考法向模数 (mm)
        center_refer_strength_3:"static text",      //平行轴参考中心距 (mm)
        effect_width_3:"static text",         //平行轴设计齿宽 (mm)
        normal_modi_factor_w_3:"static text",        //平行轴大轮设计法向变位系数
        Ynt_static_p_3:"static text",
        Ynt_static_w_3:"static text",
        tran_practice_ad_dia_p_3:"static text",      //平行轴小轮端面齿顶圆直径 (mm)
        tran_practice_ad_dia_w_3:"static text",
        standard_center_3:"static text",        //平行轴标准中心距 (mm)
        v_pitch_3:"static text",      //平行轴节圆线速度 (m/s)
        abundant_H_fatigue_p_3:"static text",      //平行轴小轮接触疲劳强度裕度
        abundant_H_fatigue_w_3:"static text",
        abundant_H_static_p_3:"static text",     //平行轴小轮接触静强度裕度
        abundant_H_static_w_3:"static text",
        tran_de_dia_p_3:"static text",        //平行轴小轮端面齿根圆直径 (mm)
        abundant_F_fatigue_p_3:"static text",    //平行轴小轮弯曲疲劳强度裕度
        abundant_F_fatigue_w_3:"static text",
        abundant_F_static_p_3:"static text",    //平行轴小轮弯曲静强度裕度
        abundant_F_static_w_3:"static text",
        tran_de_dia_w_3:"static text",      //平行轴大轮端面齿根圆直径 (mm)
        normal_width_tip_factor_p_3:"static text",   //normal_width_tip_factor_p_sn_3-平行轴小轮法向齿顶宽系数
        normal_width_tip_factor_w_3:"static text",   //normal_width_tip_factor_w_sn_3-平行轴大轮法向齿顶宽系数
        slip_p_3:"static text",      //平行轴小轮滑动率
        slip_w_3:"static text",
        total_contact_ratio_3:"static text",   //平行轴总重合度
        tran_contact_ratio_3:"static text",      //平行轴端面重合度
        axial_contact_ratio_3:"static text",   //平行轴轴向重合度
        diameter_refer_strength_p_3:"static text",   //平行轴小轮参考分度圆直径 (mm)
        diameter_refer_strength_w_3:"static text",
        ratio_different_total:"static text",   //总的传动比差值比
        z_r_change_1:"static text",        //第1级齿圈齿数调整
        z_p_1:"static text",           //第1级行星轮设计齿数
        //z_r_1-第1级齿圈设计齿数
        z_r_change_2:"static text",   ////第2级齿圈齿数调整
        z_p_2:"static text",          //第2级行星轮设计齿数
        //z_r_2-第2级齿圈设计齿数
        ratio_width_diameter_s_1:"static text",   //第1级太阳轮设计宽径比
        ratio_width_diameter_p_1:"static text",
        ratio_width_diameter_r_1:"static text",
        tran_refer_dia_s_1:"static text",    //第1级太阳轮参考分度圆直径 (mm)
        tran_refer_dia_p_1:"static text",
        tran_refer_dia_r_1:"static text",
        ratio_design_1:"static text",    //第1级设计齿数比
        effect_width_1:"static text",    //第1级设计齿宽 (mm)
        normal_modi_factor_p_1:"static text",    //第1级行星轮设计法向变位系数
        normal_modi_factor_r_1:"static text",
        clearance_planet_factor_1:"static text",  //第1级行星轮间隙系数
        work_center_1_1:"static text",        //第1级设计中心距 (mm)
        max_dia_ring_design_1:"static text",   //第1级设计齿圈最大外径 (mm)
        sigma_FG_s_1:"static text",          //sigma_FG_s_1_x1-第1级太阳轮许用弯曲应力 (MPa)
        sigma_FG_p_external_1:"static text",    //第1级外啮合行星轮许用弯曲应力 (MPa)
        sigma_FG_p_internal_1:"static text",   //第1级内啮合行星轮许用弯曲应力 (MPa)
        sigma_FG_r_1:"static text",    //第1级齿圈许用弯曲应力 (MPa)
        Y_helix_s_1:"static text",
        Y_f_s_1:"static text",
        Y_s_s_1:"static text",
        Y_helix_p_external_1:"static text",
        Y_f_p_external_1:"static text",
        Y_s_p_external_1:"static text",
        Y_radius_sensitivity_s_1:"static text",
        Y_roughness_s_1:"static text",
        Y_x_s_1:"static text",
        Y_radius_sensitivity_p_external_1:"static text",
        Y_roughness_p_external_1:"static text",
        Y_x_p_external_1:"static text",
        Y_radius_sensitivity_static_p_external_1:"static text",
        Ynt_s_1:"static text",
        Ynt_p_external_1:"static text",
        bending_stress_modi_s_1:"static text",
        Y_helix_p_internal_1:"static text",
        Y_f_p_internal_1:"static text",
        Y_s_p_internal_1:"static text",
        Y_helix_r_1:"static text",
        Y_f_r_1:"static text",
        Y_s_r_1:"static text",
        Y_radius_sensitivity_p_internal_1:"static text",
        Y_roughness_p_internal_1:"static text",
        Y_x_p_internal_1:"static text",
        Y_radius_sensitivity_r_1:"static text",
        Y_roughness_r_1:"static text",
        Y_x_r_1:"static text",
        Ynt_p_internal_1:"static text",
        Ynt_r_1:"static text",
        bending_stress_modi_r_1:"static text",
        torque_contact_design_fatigue_s_1:"static text",
        number_contact_design_fatigue_s_1:"static text",
        torque_contact_design_fatigue_p_external_1:"static text",
        number_contact_design_fatigue_p_external_1:"static text",
        number_bending_design_fatigue_s_1:"static text",
        number_bending_design_fatigue_p_external_1:"static text",
        torque_bending_design_fatigue_s_1:"static text",
        torque_bending_design_fatigue_p_external_1:"static text",
        torque_contact_design_fatigue_p_internal_1:"static text",
        number_contact_design_fatigue_p_internal_1:"static text",
        torque_contact_design_fatigue_r_1:"static text",
        number_contact_design_fatigue_r_1:"static text",
        number_bending_design_fatigue_p_internal_1:"static text",
        number_bending_design_fatigue_r_1:"static text",
        torque_bending_design_fatigue_p_internal_1:"static text",
        torque_bending_design_fatigue_r_1:"static text",
        normal_width_tip_factor_p_1:"static text",    //normal_width_tip_factor_p_sn_1-第1级行星轮法向齿顶宽系数
        tran_de_dia_p_1:"static text",    //第1级行星轮端面齿根圆直径 (mm)
        ratio_different_1:"static text",  //第1级齿数比差值百分比
        center_refer_strength_1:"static text",   //第1级参考中心距 (mm)
        max_dia_refer_strength_1:"static text",   //第1级参考齿圈最大外径 (mm)
        normal_module_refer_1:"static text",  //1参考法向模数 (mm)
        z_s_refer_1:"static text",     //第1级太阳轮参考齿数
        z_p_refer_1:"static text",
        z_r_refer_1:"static text",
        tran_practice_ad_dia_s_1:"static text",   //第1级太阳轮端面齿顶圆直径 (mm)
        tran_practice_ad_dia_p_1:"static text",
        standard_center_external_1:"static text",  //第1级外啮合标准中心距 (mm)
        v_pitch_external_1:"static text",   //第1级外啮合节圆线速度 (m/s)
        abundant_H_fatigue_s_external_1:"static text",    //第1级太阳轮接触疲劳强度裕度
        abundant_H_fatigue_p_external_1:"static text",   //第1级外啮合行星轮接触疲劳强度裕度
        abundant_H_static_s_external_1:"static text",    //第1级太阳轮接触静强度裕度
        abundant_H_static_p_external_1:"static text",
        tran_de_dia_s_1:"static text",    //第1级太阳轮端面齿根圆直径 (mm)
        abundant_F_fatigue_s_external_1:"static text",   //第1级太阳轮弯曲疲劳强度裕度
        abundant_F_fatigue_p_external_1:"static text",
        abundant_F_static_s_external_1:"static text",  //第1级太阳轮弯曲静强度裕度
        abundant_F_static_p_external_1:"static text",
        normal_width_tip_factor_s_1:"static text",
        slip_s_external_1:"static text",    //第1级太阳轮滑动率
        slip_p_external_1:"static text", 
        total_contact_ratio_external_1:"static text",   //第1级外啮合总重合度
        tran_contact_ratio_external_1:"static text",  //第1级外啮合端面重合度
        axial_contact_ratio_external_1:"static text",  //第1级外啮合轴向重合度
        standard_center_internal_1:"static text",   //第2级内啮合标准中心距 (mm)
        v_pitch_internal_1:"static text",   //
        tran_practice_ad_dia_r_1:"static text",  //
        abundant_H_fatigue_p_internal_1:"static text",   //第1级内啮合行星轮接触疲劳强度裕度
        abundant_H_fatigue_r_internal_1:"static text",   //第1级齿圈接触疲劳强度裕度
        abundant_H_static_p_internal_1:"static text",   //第1级内啮合行星轮接触静强度裕度
        abundant_H_static_r_internal_1:"static text",  //第1级齿圈接触静强度裕度
        abundant_F_fatigue_p_internal_1:"static text",  //第1级内啮合行星轮弯曲疲劳强度裕度
        abundant_F_fatigue_r_internal_1:"static text",  //...
        abundant_F_static_p_internal_1:"static text",  //
        abundant_F_static_r_internal_1:"static text",  //第1级齿圈弯曲静强度裕度
        tran_de_dia_r_1:"static text",  //
        normal_width_tip_factor_r_1:"static text", //
        slip_p_internal_1:"static text", //
        slip_r_internal_1:"static text", //
        total_contact_ratio_internal_1:"static text",  //
        tran_contact_ratio_internal_1:"static text",  //
        axial_contact_ratio_internal_1:"static text",  //
        ratio_width_diameter_s_2:"static text",   //第2级太阳轮设计宽径比
        ratio_width_diameter_p_2:"static text", //
        ratio_width_diameter_r_2:"static text", //
        tran_refer_dia_s_2:"static text",  //第2级太阳轮参考分度圆直径 (mm)
        tran_refer_dia_p_2:"static text", //
        tran_refer_dia_r_2:"static text", //
        ratio_design_2:"static text",  //第2级设计齿数比
        effect_width_2:"static text",  //第2级设计齿宽 (mm)
        normal_modi_factor_p_2:"static text",  //第2级行星轮设计法向变位系数
        normal_modi_factor_r_2:"static text", //
        clearance_planet_factor_2:"static text",  //第2级行星轮间隙系数
        work_center_1_2:"static text",  //第2级设计中心距 (mm)
        max_dia_ring_design_2:"static text",  //-第2级设计齿圈最大外径 (mm)
        sigma_FG_s_2:"static text",  //sigma_FG_s_2_x1-第2级太阳轮许用弯曲应力 (MPa)
        sigma_FG_p_external_2:"static text",  //第2级外啮合行星轮许用弯曲应力 (MPa)
        sigma_FG_p_internal_2:"static text",
        sigma_FG_r_2:"static text",
        Y_helix_s_2:"static text",
        Y_f_s_2:"static text",
        Y_s_s_2:"static text",
        Y_helix_p_external_2:"static text",
        Y_f_p_external_2:"static text",
        Y_s_p_external_2:"static text",
        Y_radius_sensitivity_s_2:"static text",
        Y_roughness_s_2:"static text",
        Y_x_s_2:"static text",
        Y_radius_sensitivity_p_external_2:"static text",
        Y_roughness_p_external_2:"static text",
        Y_x_p_external_2:"static text",
        Y_radius_sensitivity_static_p_external_2:"static text",
        Ynt_s_2:"static text",
        Ynt_p_external_2:"static text",
        bending_stress_modi_s_2:"static text",
        Y_helix_p_internal_2:"static text",
        Y_f_p_internal_2:"static text",
        Y_s_p_internal_2:"static text",
        Y_helix_r_2:"static text",
        Y_f_r_2:"static text",
        Y_s_r_2:"static text",
        Y_radius_sensitivity_p_internal_2:"static text",
        Y_roughness_p_internal_2:"static text",
        Y_x_p_internal_2:"static text",
        Y_radius_sensitivity_r_2:"static text",
        Y_roughness_r_2:"static text",
        Y_x_r_2:"static text",
        Ynt_p_internal_2:"static text",
        Ynt_r_2:"static text",
        bending_stress_modi_r_2:"static text",
        torque_contact_design_fatigue_s_2:"static text",
        number_contact_design_fatigue_s_2:"static text",
        torque_contact_design_fatigue_p_external_2:"static text",
        number_contact_design_fatigue_p_external_2:"static text",
        number_bending_design_fatigue_s_2:"static text",
        number_bending_design_fatigue_p_external_2:"static text",
        torque_bending_design_fatigue_s_2:"static text",
        torque_bending_design_fatigue_p_external_2:"static text",
        torque_contact_design_fatigue_p_internal_2:"static text",
        number_contact_design_fatigue_p_internal_2:"static text",
        torque_contact_design_fatigue_r_2:"static text",
        number_contact_design_fatigue_r_2:"static text",
        number_bending_design_fatigue_p_internal_2:"static text",
        number_bending_design_fatigue_r_2:"static text",
        torque_bending_design_fatigue_p_internal_2:"static text",
        torque_bending_design_fatigue_r_2:"static text",
        normal_width_tip_factor_p_2:"static text",  //
        tran_de_dia_p_2:"static text",  //第2级行星轮端面齿根圆直径 (mm)
        ratio_different_2:"static text",  //第2级齿数比差值百分比
        center_refer_strength_2:"static text",  //第2级参考中心距 (mm)
        max_dia_refer_strength_2:"static text", //2参考齿圈最大外径 (mm)
        normal_module_refer_2:"static text",  //2参考法向模数 (mm)
        z_s_refer_2:"static text",  //第2级太阳轮参考齿数
        z_p_refer_2:"static text",  //
        z_r_refer_2:"static text",  //
        tran_practice_ad_dia_s_2:"static text",  //第2级太阳轮端面齿顶圆直径 (mm)
        tran_practice_ad_dia_p_2:"static text",  //
        standard_center_external_2:"static text",  //
        v_pitch_external_2:"static text",  //第2级外啮合节圆线速度 (m/s)
        abundant_H_fatigue_s_external_2:"static text",  //第2级太阳轮接触疲劳强度裕度
        abundant_H_fatigue_p_external_2:"static text", //
        abundant_H_static_s_external_2:"static text",  //第2级太阳轮接触静强度裕度
        abundant_H_static_p_external_2:"static text",  //
        tran_de_dia_s_2:"static text", //
        abundant_F_fatigue_s_external_2:"static text",  //第2级太阳轮弯曲疲劳强度裕度
        abundant_F_fatigue_p_external_2:"static text",  //
        abundant_F_static_s_external_2:"static text",  //第2级太阳轮弯曲静强度裕度
        abundant_F_static_p_external_2:"static text",  //
        normal_width_tip_factor_s_2:"static text",   //normal_width_tip_factor_s_sn_2-第2级太阳轮法向齿顶宽系数
        slip_s_external_2:"static text",  //第2级太阳轮滑动率
        slip_p_external_2:"static text", //
        total_contact_ratio_external_2:"static text",  //第2级外啮合总重合度
        tran_contact_ratio_external_2:"static text",  //第2级外啮合端面重合度
        axial_contact_ratio_external_2:"static text",  //第2级外啮合轴向重合度
        standard_center_internal_2:"static text",   //第2级内啮合标准中心距 (mm)
        v_pitch_internal_2:"static text",  //
        tran_practice_ad_dia_r_2:"static text",
        abundant_H_fatigue_p_internal_2:"static text",  //
        abundant_H_fatigue_r_internal_2:"static text",  //
        abundant_H_static_p_internal_2:"static text",  //
        abundant_H_static_r_internal_2:"static text",  //
        abundant_F_fatigue_p_internal_2:"static text", //
        abundant_F_fatigue_r_internal_2:"static text", //
        abundant_F_static_p_internal_2:"static text",  //
        abundant_F_static_r_internal_2:"static text",  //
        tran_de_dia_r_2:"static text",  //
        normal_width_tip_factor_r_2:"static text", //
        slip_p_internal_2:"static text", //
        slip_r_internal_2:"static text", //
        total_contact_ratio_internal_2:"static text",
        tran_contact_ratio_internal_2:"static text",
        axial_contact_ratio_internal_2:"static text",
        sigma_H_fatigue_design_s_1_x3:"static text",
        sigma_H_fatigue_design_p_external_1_x3:"static text",
        sigma_H_fatigue_design_p_internal_1_x3:"static text",
        sigma_H_fatigue_design_r_1_x3:"static text",
        sigma_HG_s_1_x3:"static text",
        sigma_HG_external_1_x3:"static text",
        sigma_HG_p_internal_1_x3:"static text",
        sigma_HG_r_1_x3:"static text",
        sigma_F_fatigue_design_s_1_x3:"static text",
        sigma_F_fatigue_design_p_external_1_x3:"static text",
        sigma_F_fatigue_design_p_internal_1_x3:"static text",
        sigma_F_fatigue_design_r_1_x3:"static text",
        sigma_FG_s_1_x3:"static text",
        sigma_FG_external_1_x3:"static text",
        sigma_FG_p_internal_1_x3:"static text",
        sigma_FG_r_1_x3:"static text",
        tran_pitch_s_1_x3:"static text",
        tran_pitch_p_external_1_x3:"static text",
        tran_pitch_p_internal_1_x3:"static text",
        tran_pitch_r_1_x3:"static text",
        tran_base_dia_s_1_x3:"static text",
        tran_base_dia_p_external_1_x3:"static text",
        tran_base_dia_p_internal_1_x3:"static text",
        tran_base_dia_r_1_x3:"static text",
        mesh_angle_external_1_x3:"static text",
        mesh_angle_internal_1_x3:"static text",
        base_helix_angle_external_1_x3:"static text",
        base_helix_angle_internal_1_x3:"static text",
        n_s_1_rel:"static text",
        n_p_1_rel:"static text",
        n_r_1_rel:"static text",
        n_s_1_abs:"static text",
        n_p_1_abs:"static text",
        n_r_1_abs:"static text",
        n_carrier_1_abs:"static text",
        sigma_H_fatigue_design_s_2_x3:"static text",
        sigma_H_fatigue_design_p_external_2_x3:"static text",
        sigma_H_fatigue_design_p_internal_2_x3:"static text",
        sigma_H_fatigue_design_r_2_x3:"static text",
        sigma_HG_s_2_x3:"static text",
        sigma_HG_external_2_x3:"static text",
        sigma_HG_p_internal_2_x3:"static text",
        sigma_HG_r_2_x3:"static text",
        sigma_F_fatigue_design_s_2_x3:"static text",
        sigma_F_fatigue_design_p_external_2_x3:"static text",
        sigma_F_fatigue_design_p_internal_2_x3:"static text",
        sigma_F_fatigue_design_r_2_x3:"static text",
        sigma_FG_s_2_x3:"static text",
        sigma_FG_external_2_x3:"static text",
        sigma_FG_p_internal_2_x3:"static text",
        sigma_FG_r_2_x3:"static text",
        tran_pitch_s_2_x3:"static text",
        tran_pitch_p_external_2_x3:"static text",
        tran_pitch_p_internal_2_x3:"static text",
        tran_pitch_r_2_x3:"static text",
        tran_base_dia_s_2_x3:"static text",
        tran_base_dia_p_external_2_x3:"static text",
        tran_base_dia_p_internal_2_x3:"static text",
        tran_base_dia_r_2_x3:"static text",
        mesh_angle_external_2_x3:"static text",
        mesh_angle_internal_2_x3:"static text",
        base_helix_angle_external_2_x3:"static text",
        base_helix_angle_internal_2_x3:"static text",
        n_s_2_rel:"static text",
        n_p_2_rel:"static text",
        n_r_2_rel:"static text",
        n_s_2_abs:"static text",
        n_p_2_abs:"static text",
        n_r_2_abs:"static text",
        n_carrier_2_abs:"static text",
        sigma_H_fatigue_design_p_3_x3:"static text",
        sigma_H_fatigue_design_w_3_x3:"static text",
        sigma_HG_p_3_x3:"static text",
        sigma_HG_w_3_x3:"static text",
        sigma_F_fatigue_design_p_3_x3:"static text",
        sigma_F_fatigue_design_w_3_x3:"static text",
        sigma_FG_p_3_x3:"static text",
        sigma_FG_w_3_x3:"static text",
        tran_pitch_p_3_x3:"static text",
        tran_pitch_w_3_x3:"static text",
        tran_base_dia_p_3_x3:"static text",
        tran_base_dia_w_3_x3:"static text",
        mesh_angle_3_x3:"static text",
        base_helix_angle_3_x3:"static text",
        n_p_3_x3:"static text",
        n_w_3_x3:"static text",
        tangential_load_external_1_0:"static text",
        tangential_load_internal_1_0:"static text",
        radial_load_external_1_0:"static text",
        radial_load_internal_1_0:"static text",
        axial_load_external_1_0:"static text",
        axial_load_internal_1_0:"static text",
        tangential_load_external_2_0:"static text",
        tangential_load_internal_2_0:"static text",
        radial_load_external_2_0:"static text",
        radial_load_internal_2_0:"static text",
        axial_load_external_2_0:"static text",
        axial_load_internal_2_0:"static text",
        tangential_load_3_0:"static text",
        radial_load_3_0:"static text",
        axial_load_3_0:"static text",
      },
      outputform:[],
    };
  },
  mounted(){
    //绑定页面退出事件
    window.onbeforeunload= (e)=>{
      e = e || window.event;
      if (e) {
        e.returnValue = '关闭提示';
      }
      this.delete()//调用自己的方法
      // Chrome, Safari, Firefox 4+, Opera 12+ , IE 9+
      return '关闭提示';
    };
  },
  methods:{
    //同步请求删除载荷谱数组的方法
    async delete(){
      this.form2.uuids=this.form2.uuids.toString();//将载荷谱文件数组转成字符串
      await firedelete(this.form2).then(res => {
        console.log(res);
      })
    },
    customRequest(data)
    {
      const formData = new FormData()
      formData.append('fileName', data.file)
      filetext(formData)
          .then(res => {//这里需要用箭头函数，如果不用箭头函数里面的this就不是外面那个this
            console.log(res)
            this.items=res.data.filedata;
            this.input.uuid=res.data.uuid;
            this.form2.uuids.push(res.data.uuid);
          })
          .catch(error => {
            console.log(error);
          });
    },
    change(){
      this.output.thickness_reduction_last_s_1=this.outputform[0];
      this.output.thickness_reduction_last_p_1=this.outputform[1];
      this.output.thickness_reduction_last_r_1=this.outputform[2];
      this.output.thickness_reduction_last_s_2=this.outputform[3];
      this.output.thickness_reduction_last_p_2=this.outputform[4];
      this.output.thickness_reduction_last_r_2=this.outputform[5];
      this.output.thickness_reduction_last_p_3=this.outputform[6];
      this.output.thickness_reduction_last_w_3=this.outputform[7];
      this.output.ratio_design_3=this.outputform[8];
      this.output.work_center_3=this.outputform[9];
      this.output.ratio_different_3=this.outputform[10];
      this.output.max_dia_refer_strength_3=this.outputform[11];
      this.output.z_p_refer_3=this.outputform[12];
      this.output.z_w_refer_3=this.outputform[13];
      this.output.ratio_width_diameter_w_3=this.outputform[14];
      this.output.normal_module_refer_3=this.outputform[15];
      this.output.center_refer_strength_3=this.outputform[16];
      this.output.effect_width_3=this.outputform[17];
      this.output.normal_modi_factor_w_3=this.outputform[18];
      this.output.Ynt_static_p_3=this.outputform[19];
      this.output.Ynt_static_w_3=this.outputform[20];
      this.output.tran_practice_ad_dia_p_3=this.outputform[21];
      this.output.tran_practice_ad_dia_w_3=this.outputform[22];
      this.output.standard_center_3=this.outputform[23];
      this.output.v_pitch_3=this.outputform[24];
      this.output.abundant_H_fatigue_p_3=this.outputform[25];
      this.output.abundant_H_fatigue_w_3=this.outputform[26];
      this.output.abundant_H_static_p_3=this.outputform[27];
      this.output.abundant_H_static_w_3=this.outputform[28];
      this.output.tran_de_dia_p_3=this.outputform[29];
      this.output.abundant_F_fatigue_p_3=this.outputform[30];
      this.output.abundant_F_fatigue_w_3=this.outputform[31];
      this.output.abundant_F_static_p_3=this.outputform[32];
      this.output.abundant_F_static_w_3=this.outputform[33];
      this.output.tran_de_dia_w_3=this.outputform[34];
      this.output.normal_width_tip_factor_p_3=this.outputform[35];
      this.output.normal_width_tip_factor_w_3=this.outputform[36];
      this.output.slip_p_3=this.outputform[37];
      this.output.slip_w_3=this.outputform[38];
      this.output.total_contact_ratio_3=this.outputform[39];
      this.output.tran_contact_ratio_3=this.outputform[40];
      this.output.axial_contact_ratio_3=this.outputform[41];
      this.output.diameter_refer_strength_p_3=this.outputform[42];
      this.output.diameter_refer_strength_w_3=this.outputform[43];
      this.output.ratio_different_total=this.outputform[44];
      this.output.z_r_change_1=this.outputform[45];
      this.output.z_p_1=this.outputform[46];
      this.output.z_r_change_2=this.outputform[47];
      this.output.z_p_2=this.outputform[48];
      this.output.ratio_width_diameter_s_1=this.outputform[49];
      this.output.ratio_width_diameter_p_1=this.outputform[50];
      this.output.ratio_width_diameter_r_1=this.outputform[51];
      this.output.tran_refer_dia_s_1=this.outputform[52];
      this.output.tran_refer_dia_p_1=this.outputform[53];
      this.output.tran_refer_dia_r_1=this.outputform[54];
      this.output.ratio_design_1=this.outputform[55];
      this.output.effect_width_1=this.outputform[56];
      this.output.normal_modi_factor_p_1=this.outputform[57];
      this.output.normal_modi_factor_r_1=this.outputform[58];
      this.output.clearance_planet_factor_1=this.outputform[59];
      this.output.work_center_1_1=this.outputform[60];
      this.output.max_dia_ring_design_1=this.outputform[61];
      this.output.sigma_FG_s_1=this.outputform[62];
      this.output.sigma_FG_p_external_1=this.outputform[63];
      this.output.sigma_FG_p_internal_1=this.outputform[64];
      this.output.sigma_FG_r_1=this.outputform[65];
      this.output.Y_helix_s_1=this.outputform[66];
      this.output.Y_f_s_1=this.outputform[67];
      this.output.Y_s_s_1=this.outputform[68];
      this.output.Y_helix_p_external_1=this.outputform[69];
      this.output.Y_f_p_external_1=this.outputform[70];
      this.output.Y_s_p_external_1=this.outputform[71];
      this.output.Y_radius_sensitivity_s_1=this.outputform[72];
      this.output.Y_roughness_s_1=this.outputform[73];
      this.output.Y_x_s_1=this.outputform[74];
      this.output.Y_radius_sensitivity_p_external_1=this.outputform[75];
      this.output.Y_roughness_p_external_1=this.outputform[76];
      this.output.Y_x_p_external_1=this.outputform[77];
      this.output.Y_radius_sensitivity_static_p_external_1=this.outputform[78];
      this.output.Ynt_s_1=this.outputform[79];
      this.output.Ynt_p_external_1=this.outputform[80];
      this.output.bending_stress_modi_s_1=this.outputform[81];
      this.output.Y_helix_p_internal_1=this.outputform[82];
      this.output.Y_f_p_internal_1=this.outputform[83];
      this.output.Y_s_p_internal_1=this.outputform[84];
      this.output.Y_helix_r_1=this.outputform[85];
      this.output.Y_f_r_1=this.outputform[86];
      this.output.Y_s_r_1=this.outputform[87];
      this.output.Y_radius_sensitivity_p_internal_1=this.outputform[88];
      this.output.Y_roughness_p_internal_1=this.outputform[89];
      this.output.Y_x_p_internal_1=this.outputform[90];
      this.output.Y_radius_sensitivity_r_1=this.outputform[91];
      this.output.Y_roughness_r_1=this.outputform[92];
      this.output.Y_x_r_1=this.outputform[93];
      this.output.Ynt_p_internal_1=this.outputform[94];
      this.output.Ynt_r_1=this.outputform[95];
      this.output.bending_stress_modi_r_1=this.outputform[96];
      this.output.torque_contact_design_fatigue_s_1=this.outputform[97];
      this.output.number_contact_design_fatigue_s_1=this.outputform[98];
      this.output.torque_contact_design_fatigue_p_external_1=this.outputform[99];
      this.output.number_contact_design_fatigue_p_external_1=this.outputform[100];
      this.output.number_bending_design_fatigue_s_1=this.outputform[101];
      this.output.number_bending_design_fatigue_p_external_1=this.outputform[102];
      this.output.torque_bending_design_fatigue_s_1=this.outputform[103];
      this.output.torque_bending_design_fatigue_p_external_1=this.outputform[104];
      this.output.torque_contact_design_fatigue_p_internal_1=this.outputform[105];
      this.output.number_contact_design_fatigue_p_internal_1=this.outputform[106];
      this.output.torque_contact_design_fatigue_r_1=this.outputform[107];
      this.output.number_contact_design_fatigue_r_1=this.outputform[108];
      this.output.number_bending_design_fatigue_p_internal_1=this.outputform[109];
      this.output.number_bending_design_fatigue_r_1=this.outputform[110];
      this.output.torque_bending_design_fatigue_p_internal_1=this.outputform[111];
      this.output.torque_bending_design_fatigue_r_1=this.outputform[112];
      this.output.normal_width_tip_factor_p_1=this.outputform[113];
      this.output.tran_de_dia_p_1=this.outputform[114];
      this.output.ratio_different_1=this.outputform[115];
      this.output.center_refer_strength_1=this.outputform[116];
      this.output.max_dia_refer_strength_1=this.outputform[117];
      this.output.normal_module_refer_1=this.outputform[118];
      this.output.z_s_refer_1=this.outputform[119];
      this.output.z_p_refer_1=this.outputform[120];
      this.output.z_r_refer_1=this.outputform[121];
      this.output.tran_practice_ad_dia_s_1=this.outputform[122];
      this.output.tran_practice_ad_dia_p_1=this.outputform[123];
      this.output.standard_center_external_1=this.outputform[124];
      this.output.v_pitch_external_1=this.outputform[125];
      this.output.abundant_H_fatigue_s_external_1=this.outputform[126];
      this.output.abundant_H_fatigue_p_external_1=this.outputform[127];
      this.output.abundant_H_static_s_external_1=this.outputform[128];
      this.output.abundant_H_static_p_external_1=this.outputform[129];
      this.output.tran_de_dia_s_1=this.outputform[130];
      this.output.abundant_F_fatigue_s_external_1=this.outputform[131];
      this.output.abundant_F_fatigue_p_external_1=this.outputform[132];
      this.output.abundant_F_static_s_external_1=this.outputform[133];
      this.output.abundant_F_static_p_external_1=this.outputform[134];
      this.output.normal_width_tip_factor_s_1=this.outputform[135];
      this.output.slip_s_external_1=this.outputform[136];
      this.output.slip_p_external_1=this.outputform[137];
      this.output.total_contact_ratio_external_1=this.outputform[138];
      this.output.tran_contact_ratio_external_1=this.outputform[139];
      this.output.axial_contact_ratio_external_1=this.outputform[140];
      this.output.standard_center_internal_1=this.outputform[141];
      this.output.v_pitch_internal_1=this.outputform[142];
      this.output.tran_practice_ad_dia_r_1=this.outputform[143];
      this.output.abundant_H_fatigue_p_internal_1=this.outputform[144];
      this.output.abundant_H_fatigue_r_internal_1=this.outputform[145];
      this.output.abundant_H_static_p_internal_1=this.outputform[146];
      this.output.abundant_H_static_r_internal_1=this.outputform[147];
      this.output.abundant_F_fatigue_p_internal_1=this.outputform[148];
      this.output.abundant_F_fatigue_r_internal_1=this.outputform[149];
      this.output.abundant_F_static_p_internal_1=this.outputform[150];
      this.output.abundant_F_static_r_internal_1=this.outputform[151];
      this.output.tran_de_dia_r_1=this.outputform[152];
      this.output.normal_width_tip_factor_r_1=this.outputform[153];
      this.output.slip_p_internal_1=this.outputform[154];
      this.output.slip_r_internal_1=this.outputform[155];
      this.output.total_contact_ratio_internal_1=this.outputform[156];
      this.output.tran_contact_ratio_internal_1=this.outputform[157];
      this.output.axial_contact_ratio_internal_1=this.outputform[158];
      this.output.ratio_width_diameter_s_2=this.outputform[159];
      this.output.ratio_width_diameter_p_2=this.outputform[160];
      this.output.ratio_width_diameter_r_2=this.outputform[161];
      this.output.tran_refer_dia_s_2=this.outputform[162];
      this.output.tran_refer_dia_p_2=this.outputform[163];
      this.output.tran_refer_dia_r_2=this.outputform[164];
      this.output.ratio_design_2=this.outputform[165];
      this.output.effect_width_2=this.outputform[166];
      this.output.normal_modi_factor_p_2=this.outputform[167];
      this.output.normal_modi_factor_r_2=this.outputform[168];
      this.output.clearance_planet_factor_2=this.outputform[169];
      this.output.work_center_1_2=this.outputform[170];
      this.output.max_dia_ring_design_2=this.outputform[171];
      this.output.sigma_FG_s_2=this.outputform[172];
      this.output.sigma_FG_p_external_2=this.outputform[173];
      this.output.sigma_FG_p_internal_2=this.outputform[174];
      this.output.sigma_FG_r_2=this.outputform[175];
      this.output.Y_helix_s_2=this.outputform[176];
      this.output.Y_f_s_2=this.outputform[177];
      this.output.Y_s_s_2=this.outputform[178];
      this.output.Y_helix_p_external_2=this.outputform[179];
      this.output.Y_f_p_external_2=this.outputform[180];
      this.output.Y_s_p_external_2=this.outputform[181];
      this.output.Y_radius_sensitivity_s_2=this.outputform[182];
      this.output.Y_roughness_s_2=this.outputform[183];
      this.output.Y_x_s_2=this.outputform[184];
      this.output.Y_radius_sensitivity_p_external_2=this.outputform[185];
      this.output.Y_roughness_p_external_2=this.outputform[186];
      this.output.Y_x_p_external_2=this.outputform[187];
      this.output.Y_radius_sensitivity_static_p_external_2=this.outputform[188];
      this.output.Ynt_s_2=this.outputform[189];
      this.output.Ynt_p_external_2=this.outputform[190];
      this.output.bending_stress_modi_s_2=this.outputform[191];
      this.output.Y_helix_p_internal_2=this.outputform[192];
      this.output.Y_f_p_internal_2=this.outputform[193];
      this.output.Y_s_p_internal_2=this.outputform[194];
      this.output.Y_helix_r_2=this.outputform[195];
      this.output.Y_f_r_2=this.outputform[196];
      this.output.Y_s_r_2=this.outputform[197];
      this.output.Y_radius_sensitivity_p_internal_2=this.outputform[198];
      this.output.Y_roughness_p_internal_2=this.outputform[199];
      this.output.Y_x_p_internal_2=this.outputform[200];
      this.output.Y_radius_sensitivity_r_2=this.outputform[201];
      this.output.Y_roughness_r_2=this.outputform[202];
      this.output.Y_x_r_2=this.outputform[203];
      this.output.Ynt_p_internal_2=this.outputform[204];
      this.output.Ynt_r_2=this.outputform[205];
      this.output.bending_stress_modi_r_2=this.outputform[206];
      this.output.torque_contact_design_fatigue_s_2=this.outputform[207];
      this.output.number_contact_design_fatigue_s_2=this.outputform[208];
      this.output.torque_contact_design_fatigue_p_external_2=this.outputform[209];
      this.output.number_contact_design_fatigue_p_external_2=this.outputform[210];
      this.output.number_bending_design_fatigue_s_2=this.outputform[211];
      this.output.number_bending_design_fatigue_p_external_2=this.outputform[212];
      this.output.torque_bending_design_fatigue_s_2=this.outputform[213];
      this.output.torque_bending_design_fatigue_p_external_2=this.outputform[214];
      this.output.torque_contact_design_fatigue_p_internal_2=this.outputform[215];
      this.output.number_contact_design_fatigue_p_internal_2=this.outputform[216];
      this.output.torque_contact_design_fatigue_r_2=this.outputform[217];
      this.output.number_contact_design_fatigue_r_2=this.outputform[218];
      this.output.number_bending_design_fatigue_p_internal_2=this.outputform[219];
      this.output.number_bending_design_fatigue_r_2=this.outputform[220];
      this.output.torque_bending_design_fatigue_p_internal_2=this.outputform[221];
      this.output.torque_bending_design_fatigue_r_2=this.outputform[222];
      this.output.normal_width_tip_factor_p_2=this.outputform[223];
      this.output.tran_de_dia_p_2=this.outputform[224];
      this.output.ratio_different_2=this.outputform[225];
      this.output.center_refer_strength_2=this.outputform[226];
      this.output.max_dia_refer_strength_2=this.outputform[227];
      this.output.normal_module_refer_2=this.outputform[228];
      this.output.z_s_refer_2=this.outputform[229];
      this.output.z_p_refer_2=this.outputform[230];
      this.output.z_r_refer_2=this.outputform[231];
      this.output.tran_practice_ad_dia_s_2=this.outputform[232];
      this.output.tran_practice_ad_dia_p_2=this.outputform[233];
      this.output.standard_center_external_2=this.outputform[234];
      this.output.v_pitch_external_2=this.outputform[235];
      this.output.abundant_H_fatigue_s_external_2=this.outputform[236];
      this.output.abundant_H_fatigue_p_external_2=this.outputform[237];
      this.output.abundant_H_static_s_external_2=this.outputform[238];
      this.output.abundant_H_static_p_external_2=this.outputform[239];
      this.output.tran_de_dia_s_2=this.outputform[240];
      this.output.abundant_F_fatigue_s_external_2=this.outputform[241];
      this.output.abundant_F_fatigue_p_external_2=this.outputform[242];
      this.output.abundant_F_static_s_external_2=this.outputform[243];
      this.output.abundant_F_static_p_external_2=this.outputform[244];
      this.output.normal_width_tip_factor_s_2=this.outputform[245];
      this.output.slip_s_external_2=this.outputform[246];
      this.output.slip_p_external_2=this.outputform[247];
      this.output.total_contact_ratio_external_2=this.outputform[248];
      this.output.tran_contact_ratio_external_2=this.outputform[249];
      this.output.axial_contact_ratio_external_2=this.outputform[250];
      this.output.standard_center_internal_2=this.outputform[251];
      this.output.v_pitch_internal_2=this.outputform[252];
      this.output.tran_practice_ad_dia_r_2=this.outputform[253];
      this.output.abundant_H_fatigue_p_internal_2=this.outputform[254];
      this.output.abundant_H_fatigue_r_internal_2=this.outputform[255];
      this.output.abundant_H_static_p_internal_2=this.outputform[256];
      this.output.abundant_H_static_r_internal_2=this.outputform[257];
      this.output.abundant_F_fatigue_p_internal_2=this.outputform[258];
      this.output.abundant_F_fatigue_r_internal_2=this.outputform[259];
      this.output.abundant_F_static_p_internal_2=this.outputform[260];
      this.output.abundant_F_static_r_internal_2=this.outputform[261];
      this.output.tran_de_dia_r_2=this.outputform[262];
      this.output.normal_width_tip_factor_r_2=this.outputform[263];
      this.output.slip_p_internal_2=this.outputform[264];
      this.output.slip_r_internal_2=this.outputform[265];
      this.output.total_contact_ratio_internal_2=this.outputform[266];
      this.output.tran_contact_ratio_internal_2=this.outputform[267];
      this.output.axial_contact_ratio_internal_2=this.outputform[268];
      this.sigma_H_fatigue_design_s_1_x3=this.outputform[269];
      this.output.sigma_H_fatigue_design_p_external_1_x3=this.outputform[270];
      this.output.sigma_H_fatigue_design_p_internal_1_x3=this.outputform[271];
      this.output.sigma_H_fatigue_design_r_1_x3=this.outputform[272];
      this.output.sigma_HG_s_1_x3=this.outputform[273];
      this.output.sigma_HG_external_1_x3=this.outputform[274];
      this.output.sigma_HG_p_internal_1_x3=this.outputform[275];
      this.output.sigma_HG_r_1_x3=this.outputform[276];
      this.output.sigma_F_fatigue_design_s_1_x3=this.outputform[277];
      this.output.sigma_F_fatigue_design_p_external_1_x3=this.outputform[278];
      this.output.sigma_F_fatigue_design_p_internal_1_x3=this.outputform[279];
      this.output.sigma_F_fatigue_design_r_1_x3=this.outputform[280];
      this.output.sigma_FG_s_1_x3=this.outputform[281];
      this.output.sigma_FG_external_1_x3=this.outputform[282];
      this.output.sigma_FG_p_internal_1_x3=this.outputform[283];
      this.output.sigma_FG_r_1_x3=this.outputform[284];
      this.output.tran_pitch_s_1_x3=this.outputform[285];
      this.output.tran_pitch_p_external_1_x3=this.outputform[286];
      this.output.tran_pitch_p_internal_1_x3=this.outputform[287];
      this.output.tran_pitch_r_1_x3=this.outputform[288];
      this.output.tran_base_dia_s_1_x3=this.outputform[289];
      this.output.tran_base_dia_p_external_1_x3=this.outputform[290];
      this.output.tran_base_dia_p_internal_1_x3=this.outputform[291];
      this.output.tran_base_dia_r_1_x3=this.outputform[292];
      this.output.mesh_angle_external_1_x3=this.outputform[293];
      this.output.mesh_angle_internal_1_x3=this.outputform[294];
      this.output.base_helix_angle_external_1_x3=this.outputform[295];
      this.output.base_helix_angle_internal_1_x3=this.outputform[296];
      this.output.n_s_1_rel=this.outputform[297];
      this.output.n_p_1_rel=this.outputform[298];
      this.output.n_r_1_rel=this.outputform[299];
      this.output.n_s_1_abs=this.outputform[300];
      this.output.n_p_1_abs=this.outputform[301];
      this.output.n_r_1_abs=this.outputform[302];
      this.output.n_carrier_1_abs=this.outputform[303];
      this.output.sigma_H_fatigue_design_s_2_x3=this.outputform[304];
      this.output.sigma_H_fatigue_design_p_external_2_x3=this.outputform[305];
      this.output.sigma_H_fatigue_design_p_internal_2_x3=this.outputform[306];
      this.output.sigma_H_fatigue_design_r_2_x3=this.outputform[307];
      this.output.sigma_HG_s_2_x3=this.outputform[308];
      this.output.sigma_HG_external_2_x3=this.outputform[309];
      this.output.sigma_HG_p_internal_2_x3=this.outputform[310];
      this.output.sigma_HG_r_2_x3=this.outputform[311];
      this.output.sigma_F_fatigue_design_s_2_x3=this.outputform[312];
      this.output.sigma_F_fatigue_design_p_external_2_x3=this.outputform[313];
      this.output.sigma_F_fatigue_design_p_internal_2_x3=this.outputform[314];
      this.output.sigma_F_fatigue_design_r_2_x3=this.outputform[315];
      this.output.sigma_FG_s_2_x3=this.outputform[316];
      this.output.sigma_FG_external_2_x3=this.outputform[317];
      this.output.sigma_FG_p_internal_2_x3=this.outputform[318];
      this.output.sigma_FG_r_2_x3=this.outputform[319];
      this.output.tran_pitch_s_2_x3=this.outputform[320];
      this.output.tran_pitch_p_external_2_x3=this.outputform[321];
      this.output.tran_pitch_p_internal_2_x3=this.outputform[322];
      this.output.tran_pitch_r_2_x3=this.outputform[323];
      this.output.tran_base_dia_s_2_x3=this.outputform[324];
      this.output.tran_base_dia_p_external_2_x3=this.outputform[325];
      this.output.tran_base_dia_p_internal_2_x3=this.outputform[326];
      this.output.tran_base_dia_r_2_x3=this.outputform[327];
      this.output.mesh_angle_external_2_x3=this.outputform[328];
      this.output.mesh_angle_internal_2_x3=this.outputform[329];
      this.output.base_helix_angle_external_2_x3=this.outputform[330];
      this.output.base_helix_angle_internal_2_x3=this.outputform[331];
      this.output.n_s_2_rel=this.outputform[332];
      this.output.n_p_2_rel=this.outputform[333];
      this.output.n_r_2_rel=this.outputform[334];
      this.output.n_s_2_abs=this.outputform[335];
      this.output.n_p_2_abs=this.outputform[336];
      this.output.n_r_2_abs=this.outputform[337];
      this.output.n_carrier_2_abs=this.outputform[338];
      this.output.sigma_H_fatigue_design_p_3_x3=this.outputform[339];
      this.output.sigma_H_fatigue_design_w_3_x3=this.outputform[340];
      this.output.sigma_HG_p_3_x3=this.outputform[341];
      this.output.sigma_HG_w_3_x3=this.outputform[342];
      this.output.sigma_F_fatigue_design_p_3_x3=this.outputform[343];
      this.output.sigma_F_fatigue_design_w_3_x3=this.outputform[344];
      this.output.sigma_FG_p_3_x3=this.outputform[345];
      this.output.sigma_FG_w_3_x3=this.outputform[346];
      this.output.tran_pitch_p_3_x3=this.outputform[347];
      this.output.tran_pitch_w_3_x3=this.outputform[348];
      this.output.tran_base_dia_p_3_x3=this.outputform[349];
      this.output.tran_base_dia_w_3_x3=this.outputform[350];
      this.output.mesh_angle_3_x3=this.outputform[351];
      this.output.base_helix_angle_3_x3=this.outputform[352];
      this.output.n_p_3_x3=this.outputform[353];
      this.output.n_w_3_x3=this.outputform[354];
      this.output.tangential_load_external_1_0=this.outputform[355];
      this.output.tangential_load_internal_1_0=this.outputform[356];
      this.output.radial_load_external_1_0=this.outputform[357];
      this.output.radial_load_internal_1_0=this.outputform[358];
      this.output.axial_load_external_1_0=this.outputform[359];
      this.output.axial_load_internal_1_0=this.outputform[360];
      this.output.tangential_load_external_2_0=this.outputform[361];
      this.output.tangential_load_internal_2_0=this.outputform[362];
      this.output.radial_load_external_2_0=this.outputform[363];
      this.output.radial_load_internal_2_0=this.outputform[364];
      this.output.axial_load_external_2_0=this.outputform[365];
      this.output.axial_load_internal_2_0=this.outputform[366];
      this.output.tangential_load_3_0=this.outputform[367];
      this.output.radial_load_3_0=this.outputform[368];
      this.output.axial_load_3_0=this.outputform[369];
    },
    select(){
      this.AisSelectActive=!this.AisSelectActive;
      this.BisSelectActive=!this.BisSelectActive;
      this.Bcanshow=!this.Bcanshow;
      this.Acanshow=!this.Acanshow;
    },
    shuzuchange(){
      //拼接字符串提交
      this.input.shuzu_gai_sn=this.form1.SR_p_3.toString()+","+this.form1.SR_w_3.toString()+","+this.form1.thickness_reduction_s_1.toString()+","+this.form1.tooth_thickness_tolerance_s_1.toString()+","+this.form1.thickness_reduction_p_1.toString()+","+this.form1.tooth_thickness_tolerance_p_1.toString()+","+this.form1.thickness_reduction_r_1.toString()+","+this.form1.tooth_thickness_tolerance_r_1.toString()+","+this.form1.thickness_reduction_s_2.toString()+","+this.form1.tooth_thickness_tolerance_s_2.toString()+","+this.form1.thickness_reduction_p_2.toString()+","+this.form1.tooth_thickness_tolerance_p_2.toString()+","+this.form1.thickness_reduction_r_2.toString()+","+this.form1.tooth_thickness_tolerance_r_2.toString()+","+this.form1.thickness_reduction_p_3.toString()+","+this.form1.tooth_thickness_tolerance_p_3.toString()+","+this.form1.thickness_reduction_w_3.toString()+","+this.form1.tooth_thickness_tolerance_w_3.toString()+","+this.form1.bend_strength_thickness_s_1.toString()+","+this.form1.bend_strength_thickness_p_1.toString()+","+this.form1.bend_strength_thickness_r_1.toString()+","+this.form1.bend_strength_thickness_s_2.toString()+","+this.form1.bend_strength_thickness_p_2.toString()+","+this.form1.bend_strength_thickness_r_2.toString()+","+this.form1.bend_strength_thickness_p_3.toString()+","+this.form1.bend_strength_thickness_w_3.toString()+","+this.form1.spectrum_torque_carrier_s_1.toString()+","+this.form1.power_rate_carrier_s_1.toString()+","+this.form1.spectrum_time_carrier_s_1.toString()+","+this.form1.radius_factor_r_1.toString()+","+this.form1.radius_factor_r_2.toString()+","+this.form1.auto_cutter_1.toString()+","+this.form1.auto_cutter_2.toString()+","+this.form1.cutter_shift_coefficient_1.toString()+","+this.form1.cutter_shift_coefficient_2.toString()+","+this.form1.z_cutter_1.toString()+","+this.form1.z_cutter_2.toString()+","+this.form1.pp6.toString()+","+this.form1.work_center_3.toString();
    },
    onSubmit() {
      this.shuzuchange();
      nametwo_planet_add_one_parallel_design_check(this.input).then(res => {
        console.log("打印结果");
        console.log(res);
        this.outputform=res;
        this.change();
      });
    },
    showModal() {
      this.visible = true;
    },
    showModal1() {
      this.visible1 = true;
    },
    handleOk(e) {
      console.log(e);
      this.visible = false;
    },
    handleOk1(e) {
      console.log(e);
      this.visible1 = false;
    },
    showModal2() {
      this.visible2 = true;
    },
    handleOk2(e) {
      console.log(e);
      this.visible2    = false;
    },
    showModal3() {
      this.visible3 = true;
    },
    handleOk3(e) {
      console.log(e);
      this.visible3 = false;
    },
    showModal4() {
      this.visible4 = true;
    },
    handleOk4(e) {
      console.log(e);
      this.visible4 = false;
    },
    showModal5() {
      this.visible5 = true;
    },
    handleOk5(e) {
      console.log(e);
      this.visible5 = false;
    },
    showModal6() {
      this.visible6 = true;
    },
    handleOk6(e) {
      console.log(e);
      this.visible6 = false;
    },
    showModal7() {
      this.visible7 = true;
    },
    handleOk7(e) {
      console.log(e);
      this.visible7 = false;
    },
  }
};
</script>

<style scoped>
.content1 li label{
  line-height: 1.5;
  text-align: right;
  display: inline-block;
  height: 100%;
  margin: 0;
  padding: 0;
  overflow: hidden;
}

ul{
  margin: 0;
  padding: 0;
}
.m1 span{
  display: inline-block;
  margin:0 2px;
}
.content1 li{
  display: block;
  height: 6.23%;
  width: 100%;
}
*:not(.da-left){
  overflow: hidden;
  font-size: 14px;
  line-height: 1.33;
}
li{
  list-style: none;
}
.button1{
  background-color: #6dd400;
  border-radius: 4px;
  border: 2px #686868;
}
.da-mid-top,.da-mid-mid,.da-mid-bottom,.da-right-top,.da-right-bottom,.da-right-mid,.db-right,.db-left{
  box-shadow: 1.5px 1.5px 2px #aaaaaa;
  border: 0.5px solid rgba(231, 231, 231, 0.486);
  border-radius: 3px;
}
input,select{
  text-align: center;
}
.title{
  background-color: #D7D7D7;
  border-radius: 3px;
  font-weight: bolder;
  font-size: 17.5px;
  display: block;
  width: 100%;
}
.da,.db{
  position: absolute;
  left: 0;
  top: 4%;
  background-color: white;
  width: 100%;height: 97%;
}
.db{
  /*默认显示da界面*/
  left: 100%;
}
.db-left li:not(:first-of-type,:nth-of-type(2),:nth-of-type(3),:nth-of-type(4)) span,
.db-right li:not(:nth-of-type(3),:nth-of-type(4)) span{
  width: 27%;
  margin-right: 1%;
  height: 100%;
  display: block;
  float: left;
  text-align: right;
}
.db-left li:not(:first-of-type,:nth-of-type(2),:nth-of-type(3),:nth-of-type(4)) input,
.db-right li:not(:nth-of-type(3),:nth-of-type(4)) input{
  display: block;
  float: left;
  text-align: center;
  outline: none;
  height: 90%
}
.db-left li:not(:first-of-type,:nth-of-type(2),:nth-of-type(3),:nth-of-type(4)) label{
  display: block;
  float: left;
  text-align: center;
  font-size: 13px;
  height: 90%;
  width: 17%;
}
.a,.b{
  display: block;
  float: left;
  width: 8%;
  height: 3.5%;
  color: rgb(51,51,51);
  background-color: rgb(231, 231, 231);
  outline: none;
  line-height: 1.2;
  font-size: 13px;
  box-shadow: 1.5px 1.5px 2px #aaaaaa;
  border: 0.5px solid  #aaaaaa;
  border-radius: 3px;
}
.select_active{
  background-color: #aaaaaa;
  color: rgb(230, 230, 230);
}
.B_show{
  left: 0;
}
.da>div,
.db>div{
  float: left;
}
.db-left{
  height: 98%;
  width: 37%;
  margin-left: 0.8%;
}
.db-right{
  height: 92%;
  margin-left: 0.8%;
  width: 23%;
}
.db-left li{
  height: 2.63%;
  width: 100%;
}
.db-right li{
  height: 2.85%;
  width: 100%;
}
.da-left{
  height: 74%;
  width: 18%;
  margin-left: 0.8%;
  outline: 1px solid rgba(179,179,179,.3);
}
.da-mid{
  height:98%;
  width: 30%;
  margin-left: 0.5%;
  outline: 1px solid rgba(179,179,179,.3);
}
.da-right{
  height: 93%;
  width: 19%;
  margin-left: 0.5%;
  outline: 1px solid rgba(179,179,179,.3);
}
.da-left input,
.da-left select,
.da-left li>button{
  width: 25%;
  text-align: center;
  display:inline-block;
  height: 100%;
  margin-left: 3%;
  margin-right: 3%;
}
.da-left li {
  text-align: right;
  line-height: 1;
  height: 3.6%;
  margin-top: 1%;
  font-size: 13px;
}

tr{
  font-size: 13px;
  height: 20%;
  width: 100%;
}
tr:nth-child(2n+1){
  background-color: rgb(239,239,239);
}
tr:first-child td{
  height: 20%;
  border: 1px solid rgba(0,0,0,.5);
  vertical-align:middle;
  text-align: center;
}
td{
  height: 20%;
  border: 1px solid rgb(240,240,240);
  vertical-align:middle;
  text-align: center;
}
.da-mid-top{
  width: 98%;
  margin-left: 1%;
  height: 24%;
}
.da-mid-mid{
  width: 98%;
  margin-left: 1%;
  height: 48%;
}
.da-mid-bottom{
  height:22%;
  width: 98%;
  margin-left: 1%;
}
.da-mid-bottom li{
  height: 12.5%;
  width: 100%;
}
.da-left span{
  height: 100%;
  width: 67%;
  text-align: right;
  float: left;
}
.da-mid-top li{
  height: 12.5%;
  width: 100%;
}
.da-mid-mid li{
  height: 6.25%;
  width: 100%;
}
.da-mid span{
  display: block;
  text-align: right;
  width: 30%;
  float: left;
  font-size: 13px;
}
.da-mid input,
.da-mid select{
  margin-left: 5.5%;
  font-size: 13px;
  display: block;
  height: 90%;
  width: 15%;
  float: left;
  text-align: center;
}
.da-right-top,.da-right-bottom{
  width: 98%;
  margin-left: 1%;
  height: 24.5%;
}
.da-right-top li{
  height: 12.5%;
  width: 100%;
}
.da-right-bottom li{
  height: 12.5%;
  width: 100%;
}
.da-right span{
  width: 40%;
  height: 100%;
  float: left;
  text-align: right;
}
.da-right input,
.da-right select{
  width: 22%;
  height: 90%;
  margin-left: 5%;
  float: left;
  text-align: center;
}
.da-right-mid{
  height: 45%;
  width: 98%;
  margin-left: 1%;
}
.da-right-mid li{
  height: 7.14%;
  width: 100%;
}

</style>